CN106931983A - A kind of method and device and equipment of electronic eyes guiding - Google Patents
A kind of method and device and equipment of electronic eyes guiding Download PDFInfo
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- CN106931983A CN106931983A CN201511022901.1A CN201511022901A CN106931983A CN 106931983 A CN106931983 A CN 106931983A CN 201511022901 A CN201511022901 A CN 201511022901A CN 106931983 A CN106931983 A CN 106931983A
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01C—MEASURING DISTANCES, LEVELS OR BEARINGS; SURVEYING; NAVIGATION; GYROSCOPIC INSTRUMENTS; PHOTOGRAMMETRY OR VIDEOGRAMMETRY
- G01C21/00—Navigation; Navigational instruments not provided for in groups G01C1/00 - G01C19/00
- G01C21/26—Navigation; Navigational instruments not provided for in groups G01C1/00 - G01C19/00 specially adapted for navigation in a road network
- G01C21/34—Route searching; Route guidance
- G01C21/3407—Route searching; Route guidance specially adapted for specific applications
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Abstract
The invention discloses the method and device and equipment of a kind of guiding of electronic eyes, it is related to navigation field, methods described to include:During being travelled from car, the related data of at least part of electronic eyes from front side path, and the centered on from car second setting range of reading planned from front side path or acquisition in the first setting range is persistently derived;The geographical position of electronic eyes and shooting direction described in related data according to the electronic eyes, determine whether the electronic eyes is the electronic eyes for being needed from front side path and being guided;Caching the electronic eyes of guiding in need related data;The electronic eyes to institute's buffering associated data carries out corresponding electronic eyes guiding successively.The present invention solves the problems, such as that electronic eyes guiding is inaccurate in the prior art.
Description
Technical field
The present invention relates to field of navigation technology, the more particularly to a kind of method and device and equipment of electronic eyes guiding.
Background technology
With developing rapidly for Automobile Electronic Industry, auto navigation has been widely used.Auto-navigation system, is in insertion
On the basis of formula hardware, global GPS location, geographic information data, for driver provides electronic map, vehicle location, road
Line computation, the synthesis of the service such as real-time voice and real-time pictures guiding.
Electronic eye system, refers on road, between various classification motor vehicles traveling behaviors are carried out not in specific lane
Disconnected automatic monitoring and the equipment and system of record.In recent years, with the explosive growth of total vehicle, electronic eye system,
The means of a kind of science as reinforcing traffic administration and strength, in the generation of the accident of reduction, optimization traffic environment, improve current
The aspects such as efficiency serve indispensable effect.The system possesses under daytime, night, various seasons and various weather conditions
The ability of work, can automatic recorder motor-car disorderly account for track, make a dash across the red light, random modified line, the traffic violation such as drive over the speed limit.
The current navigation type product with electronic eyes guiding function is relatively common, but this kind of product also has electronic eyes guiding
Inaccurate and problem not in time.For example under the application scenarios for thering is route to plan and shown by view, according to being advised
Report point A (starting the position reported) and electronic eyes observation position B (the actual shootings of electronic eyes are played in the programme path drawn
Position) two coordinate positions to be reported when, if user is by after A points, departing from path planning not by B points
Position, and continuing prompting user's observation position B according to original route planning in A points has electronic eyes, will result in a kind of mistake
Report.In addition, for viaduct, parallel road and crankcase ventilaton, due to the position relationship between road, causing other
Electronic eyes wrong report on road is the situation of electronic eyes on the actual place road of user, and therefore electronic eyes also has guiding on bend
Problem not in time.
The content of the invention
In view of the above problems, the embodiment of the present invention is provided and overcomes above mentioned problem or the electronics for solving the above problems at least in part
The method and device and equipment of eye guiding.
As one aspect of the present invention, it is related to a kind of method of electronic eyes guiding, including:
During being travelled from car, persistently derive in the first setting range from front side path or acquisition planned from car
The related data of at least part of electronic eyes in forward path, and the centered on from car second setting range of reading;
The geographical position of electronic eyes and shooting direction described in related data according to the electronic eyes, determine that the electronic eyes is
No is the electronic eyes for being needed from front side path and being guided;
Caching the electronic eyes of guiding in need related data;
The electronic eyes to institute's buffering associated data carries out corresponding electronic eyes guiding successively.
On the other hand, it is related to a kind of device of electronic eyes guiding, including:
Path acquisition module, for during being travelled from car, persistently derive in the first setting range from front side path
Or obtain planned from front side path;
Read module, for during being travelled from car, reading at least part of electricity in the centered on from car second setting range
The related data of sub- eye;
Determining module, for the geographical position of electronic eyes and shooting direction described in the related data according to the electronic eyes, really
Whether the fixed electronic eyes is the electronic eyes for being needed from front side path and being guided;
Cache module, for cache guiding in need electronic eyes related data;
Guiding module, corresponding electronic eyes guiding is carried out for the electronic eyes successively to institute's buffering associated data.
Another further aspect, has further related to a kind of navigation equipment, and the navigation equipment includes above-mentioned electronic eyes provided in an embodiment of the present invention
The device of guiding.
Another aspect, has further related to a kind of server, and the server is used to perform above-mentioned electronic eyes provided in an embodiment of the present invention
The method of guiding.
The embodiment of the present invention at least realizes following effect:
The method of above-mentioned electronic eyes guiding provided in an embodiment of the present invention, during being travelled from car, constantly derives and comes from car
Path (from front side path) in the setting range of front first or it is lasting obtain planned from front side path, with this
The data of at least part of electronic eyes in the centered on from car second setting range are also constantly read simultaneously, it is then each to what is read
The data of electronic eyes are matched with deriving or acquisition from front side path respectively, determine whether the electronic eyes belongs to needs
The electronic eyes of guiding, caching institute's data of the electronic eyes of guiding in need simultaneously carry out the guiding of electronic eyes successively, implementation of the invention
The technical scheme that example is provided, has constantly advised to being derived or persistently obtained from a range of path of front side in real time
The identification step of the electronic eyes guided from front side path, the reading of the data of electronic eyes, needs drawn and derivation path are obtained
The step of taking existing path planning be while carry out, it is to avoid in the prior art due to user's path change with the data of electronic eyes
The misguidance that is not brought with route matching, guiding are not in time etc..Furthermore, for the data for reading electronic eyes, according to it
Geographical position and shooting direction, judge whether the electronic eyes is the electronic eyes for needing guiding, improve accurate to the identification of electronic eyes
True property, it is to avoid viaduct, parallel road and rugged road etc. easily guide caused by the electronic eyes on other roads misguidance and
Guiding problem not in time.
Also, above-mentioned technical proposal provided in an embodiment of the present invention, in the case of without Route guiding (without advance rule
Draw path) or have a Route guiding in the case that but user deviates original programme path, due to constantly to from front side one
The path determined in scope is derived, and continuously basis carries out path modification automatically from the change of truck position so that push away
Derived route (set from front side path derived every time) with from car actual travel route closely, error
It is smaller, matching for electronic eyes and actual travel path is finally ensure that, improve the accuracy of electronic eyes guiding.
Other features and advantages of the present invention will illustrate in the following description, also, partly from specification become aobvious
And be clear to, or understood by implementing the present invention.The purpose of the present invention and other advantages can by the specification write,
Described structure is realized and obtained in claims and accompanying drawing.
Below by drawings and Examples, technical scheme is described in further detail.
Brief description of the drawings
Accompanying drawing is used for providing a further understanding of the present invention, and constitutes a part for specification, with embodiments of the invention
It is used to explain the present invention together, is not construed as limiting the invention.In the accompanying drawings:
Fig. 1 is the flow chart of the method for the electronic eyes guiding that the embodiment of the present invention one is provided;
Fig. 2 is the schematic diagram of the second setting range that the embodiment of the present invention one is provided;
Fig. 3 is the specific implementation flow chart of the step of embodiment of the present invention one is provided S12;
Fig. 4 is the specific implementation flow chart of the step of embodiment of the present invention one is provided S31;
Fig. 5 is a schematic diagram for example of the shape correlation that the embodiment of the present invention one is provided;
Fig. 6 is the specific implementation flow chart of the step of embodiment of the present invention one is provided S32;
Fig. 7 is the schematic diagram of the first angle that the embodiment of the present invention one is provided and the second angle;
Fig. 8 is the specific implementation flow chart of the step of embodiment of the present invention one is provided S14;
Fig. 9 is the structural representation of the device of the electronic eyes guiding that the embodiment of the present invention one is provided;
Figure 10 is the structural representation of the determining module 93 that the embodiment of the present invention one is provided;
Figure 11 is the flow chart of the method for the electronic eyes guiding that the embodiment of the present invention two is provided;
Figure 12 is the structural representation of the device of the electronic eyes guiding that the embodiment of the present invention two is provided;
Figure 13 is the flow chart of the method for the electronic eyes guiding that the embodiment of the present invention three is provided;
Figure 14 is the structural representation of the device of the electronic eyes guiding that the embodiment of the present invention three is provided.
Specific embodiment
The exemplary embodiment of the disclosure is more fully described below with reference to accompanying drawings.Although showing showing for the disclosure in accompanying drawing
Example property embodiment, it being understood, however, that may be realized in various forms the disclosure without that should be limited by embodiments set forth here
System.Conversely, there is provided these embodiments are able to be best understood from the disclosure, and can be complete by the scope of the present disclosure
Whole conveys to those skilled in the art.
Method and device and the various specific embodiments of equipment separately below to electronic eyes provided in an embodiment of the present invention guiding
It is described in detail.
Embodiment one:
The method of the electronic eyes guiding that the embodiment of the present invention one is provided, as shown in figure 1, including:
S11, during being travelled from car, persistently derive having been planned from front side path or acquisition in the first setting range
The related data of at least part of electronic eyes from front side path, and the centered on from car second setting range of reading;
In above-mentioned steps S11, the related data of at least part of electronic eyes is all or part of in the second setting range
The related data of electronic eyes.
Specifically, from front side path the first setting range and the read range of electronic eyes on the whole can be basically identical, with
Ensure that electronic eyes can be guided accurately, it is also possible to slightly different, may there are some in such second setting range unnecessary
Data (such as from car rear, should electronic eyes from the road that car has run over related data), in this case,
The related data of such electronic eyes can be excluded, to avoid unnecessary calculating.
S12, the geographical position of electronic eyes and shooting direction according to the related data of the electronic eyes, determine the electronics
Whether eye is the electronic eyes for being needed from front side path and being guided;
S13, caching the electronic eyes of guiding in need related data;
S14, the electronic eyes successively to institute's buffering associated data carry out corresponding electronic eyes guiding.
The method of the above-mentioned electronic eyes guiding that the embodiment of the present invention one is provided, during being travelled from car, constantly derives and comes from
Path (from front side path) in the setting range of front side first or acquisition planned from front side path, it is same with this
When also constantly read the data of at least part of electronic eyes in the centered on from car second setting range, the then each electricity to reading
The data of sub- eye are matched with deriving or acquisition from front side path respectively, determine whether the electronic eyes belongs to needs
The electronic eyes of guiding, caching institute's data of the electronic eyes of guiding in need simultaneously carry out the guiding of electronic eyes successively, implementation of the invention
The technical scheme of example one, on the one hand constantly in real time to being derived from a range of path of front side or persistently being obtained
Take the identification of a range of electronic eyes guided from front side path, the reading of the data of electronic eyes, needs planned
Step with derive path or carry out simultaneously the step of obtain existing path planning, it is to avoid in the prior art because user path becomes
Misguidance, the guiding changed and do not brought with route matching with the data of electronic eyes are not in time etc..Furthermore, for reading electricity
The data of sub- eye, according to its geographical position and shooting direction, judge whether the electronic eyes is the electronic eyes for needing guiding, improve
To the identification accuracy of electronic eyes, it is to avoid viaduct, parallel road and rugged road etc. easily guide the electronics on other roads
Misguidance and guiding problem not in time caused by eye.
Also, the above-mentioned technical proposal that the embodiment of the present invention one is provided, in the case of without Route guiding (advance
Path planning) or have a Route guiding in the case that but user deviates original programme path, due to constantly to from front side
A range of path is derived, and continuously basis carries out path modification automatically from the change of truck position so that
The route (set from front side path derived every time) derived closely, is missed with the route from car actual travel
Difference is smaller, finally ensure that matching for electronic eyes and actual travel path, improves the accuracy that electronic eyes is guided.
When the method for above-mentioned electronic eyes guiding provided in an embodiment of the present invention is applied to the situation for having Route guiding, such as navigation system
The address united according to the destination of user input, has cooked up the situation of route, in the process travelled according to programme path from car
In, can not execution route directly use existing path planning the step of derive, but once from car deviate from programme path,
Then need to carry out the derivation from front side path.Two processes can be alternately.
Above steps is described in detail separately below.
In above-mentioned steps S11, lasting implication, comprising various, can continuously carry out, it may also be said to off and on,
Periodically carry out.Constantly calculate the computing capability requirement to the equipment such as navigation software, navigator for possessing navigation feature
It is very high, substantial amounts of computing resource can be consumed, and the data in the path and the electronic eyes for being read of derivation or acquisition all can every time
There is large range of repetition, therefore, it will usually this mode that selection cycle ground is performed, but in order to avoid occurring reporting by mistake,
This cycle can not be oversize, preferably make next cycle derive or the data from front side path and electronic eyes that obtain with
Last time has fraction to overlap, it is ensured that not in time, each cycle condition of triggering can be for omission or guiding without guiding
According to Fixed Time Interval (next path derivation or acquisition and electronic eyes digital independent and last fixed time intervals);Or
Fixed operating range (next path derivation or acquisition and electronic eyes digital independent and last interval fixed range);Or its
The condition etc. (for example running into crossing etc.) that he fixes, in this case not fixed time interval or the operating range of fixation.
Specifically, constantly derived in above-mentioned steps S11 in the first setting range from front side path, it is possible to implement
For:According to default trigger condition, periodically derive in the first setting range from front side path;
Above-mentioned default trigger condition is:It is trigger condition often to travel default operating range from car;Or it is default in traveling
Operating range when not running into crossing, be trigger condition to travel default operating range, do not drive to default traveling away from
From when run into crossing when, to run into the crossing as trigger condition.
For example, default trigger condition can be the data that every traveling 1km is carried out a path derivation and electronic eyes
The operations such as the judgement of electronic eyes for read, needing guiding.
Or default trigger condition is:When traveling 1km does not run into crossing, perform a path and derive and electronic eyes number
According to reading, the operation such as judgement of electronic eyes of guiding is needed, when not driving to 1km and running into crossing, to run into the road
Mouth performs the operations such as judgement of electronic eyes that a path derivation and the reading of electronic eyes data, needs are guided as trigger condition.
Above-mentioned default operating range and the first setting range are adapted, and can be slightly smaller than the first setting range.
It is preferred that in above-mentioned steps S11, the second setting range can be the circle of the pre-set radius centered on from car, or
Regular polygon centered on from car, the pre-set radius are equal to from the distance on car Yu any bar side of regular polygon.
Example as shown in Figure 2, the second setting range can be that centered on from car, 2km is the circle of radius, or can be
Centered on from car, the length of side is the square of 4km.
Fig. 2 is only an example, however it is not limited to which square, other regular polygons can also.
In above-mentioned steps S11, derive in the range of first from front side path the step of, can be specifically embodied as:
On the present road from front side air line distance be in the range of N without crossing when, to be starting point from the coordinate of car, along working as
Preceding road releases forward stretch footpath that air line distance is N as from front side path;
Be when there is no crossing in the range of 2km from front side air line distance for example on the present road, then to be starting point from car,
Stretch footpath that air line distance is 2km is released forward along present road as from front side path.
Why it is air line distance, is to consider that present road can also be the situation on various curve roads, no matter the shape of present road
Shape, deriving to distance from position of the car air line distance for 2km.
Be when having at least one crossing in the range of N from front side air line distance on the present road, with from the coordinate of car as
Point, according to the optimal abjection road selection strategy in default crossing, derives come from front side path successively, until with from car straight line away from
Untill the position for N.
From front side air line distance it is when having crossing in the range of 2km, because crossing may be present for example on the present road
The situation that turn is not kept straight on, therefore, it can, according to the optimal abjection road selection strategy in default crossing, carry out the derivation in path,
The optimal abjection road selection strategy in crossing, can determine according to driving habit for the general user for being counted etc..
From above-mentioned path derive implementation process can be seen that distance from front side (not necessarily front, refer to from car
Travel direction) air line distance is the first setting range for the scope of N.
Correspondingly, based on it is foregoing the reasons why, default operating range in above-mentioned default trigger condition is less than N.
Such as, when N selections are for 2km, above-mentioned operating range can select to be 1km.
Further, it is above-mentioned derive in the range of first from front side path the step of among, crossing is the road of following roads
Mouthful:Higher than pre-set level, non-reverse road of the same name and can deviate from road quantity more than 1 road;Above-mentioned reverse road of the same name
It is to enter approach road of the same name and reverse with crossing.
In map system, road can be to be divided into various ranks, and category of roads is divided can multiple standards, the present invention
Embodiment is not construed as limiting to this.
Specifically, above-mentioned crossing do not consider be the other road of lower level crossing, such as crossing on Xi Jie roads etc..
Specific rank may be referred to driving habit and the synthetic user experience of user and the performance of navigation software or navigation equipment etc.
Factor determines.
Above-mentioned crossing does not consider that road of the road quantity less than or equal to 1, such as slalom course, left-hand rotation special lane, right-hand rotation can be deviate from
Special lane or other abjection road quantity be not more than 1 etc. road crossing.
Further, the optimal abjection road selection strategy in above-mentioned crossing, including:
The abjection road of the same name with approach is entered is preferred;
When in the absence of with approach abjection road of the same name is entered, the abjection road minimum with angle absolute value between approach is entered is excellent
First select;
It is that the abjection road on right side is preferential among the abjection road of angle absolute value identical between approach more than two
Selection.
The above-mentioned derivation from front side path has a certain error, but because during being travelled from car, above-mentioned steps S11~
S14 can constantly be performed, and constantly according to the car's location that vary, be derived from path and the reading of front side a small range
The information of the electronic eyes of a small range, from the point of view of larger scope, the path for being derived on the whole can be very close to true from car
The route (might have crossing erroneous judgement situation, but automatic correction quickly) that implementation is sailed, from the correctness that front side path derives,
The accuracy of whole electronic eyes guiding can be ensured.
Further, in above-mentioned steps S11, the shape of the first setting range and the second setting range, size can unanimously or
Person is inconsistent, both slightly difference can also, generally be adapted to.
Further, in above-mentioned steps S12, the geographical position of electronic eyes described in the related data according to the electronic eyes and
Shooting direction, determines whether the electronic eyes is the electronic eyes for being needed from front side path and being guided, as shown in figure 3,
Can be realized by following flows:
Projector distance between S31, the geographical position according to the electronic eyes and the path from front side, determines that electronic eyes is
It is not no and match from distance between front side path;
S32, the shooting direction according to electronic eyes and from differential seat angle between front side path direction, determine electronic eyes whether with from
Direction matches between front side path;
S33, when it is determined that electronic eyes and matching from distance between front side path and when direction matches, determining the electronic eyes
To need the electronic eyes of guiding.
It should be noted that above-mentioned steps S31 and S32 are two the step of independently execute, there can be the sequencing can also
Perform side by side, i.e. S31 can be first carried out and perform S32 again, or in turn, or two step executed in parallel.
Further, in above-mentioned S31 according to electronic eyes geographical position and from the projector distance between front side path, it is determined that
Whether distance matches electronic eyes between the path from front side, as shown in figure 4, can be realized by following step:
S41, the geographical coordinate according to electronic eyes, in each subsegment of the shape correlation from front side path, determine electronic eyes
Upright projection point;
S42, calculate the distance between electronic eyes and each upright projection point value;
S43, judge in each distance value with the presence or absence of the distance value for meeting predeterminable range value scope;If so, performing step S44;
Otherwise, this flow is terminated;
S44, determine that distance matches between electronic eyes and the path from front side.
In the prior art, in the GIS-Geographic Information System that navigation system is used, the shape link (association) in path refers to by road
The connecting line that is formed by connecting of each shape point.Shape point is shapenode, is used to describe in the GIS-Geographic Information System of map
Node in the geometrical model on road.
Example as shown in Figure 5, what each round dot was represented is shape point, and the connecting line being connected with each other between each shape point is
Shape link (association).Shape link (association) can characterize the shape of road.
Electronic eyes A is located at the side of shape link (association), calculates the position coordinates of A to the shape of the forward path derived
The distance value of each subsegment of link (association), i.e., to the distance between the upright projection point in each subsegment value, as shown in figure 5,
There is the subpoint of electronic eyes A in shape link (association) subsegment of electronic eyes A right sides, one distance value of any of which falls if judging
When in the range of default distance value, that is, determine electronic eyes A and match from distance between front side path.
Generally for the correctness for ensureing matching result, according to the situation of real road, this default distance value scope is usual
It is smaller, such as in the range of 2 meters, in the range of 1.5 meters etc., specific number range may be referred to the peace of electronic eyes on real road
Holding position determines, it is ensured that the correctness of matching.
Further, in above-mentioned steps S32 according to electronic eyes shooting direction and from differential seat angle between front side path direction,
Determine whether electronic eyes matches with from direction between front side path, as shown in fig. 6, can be realized by following step:
The first angle between S61, the shooting direction of calculating electronic eyes and default reference direction;The shooting direction of electronic eyes is
The direction of axis line of electronic eyes;
Reference direction can be any direction in navigation system, it is preferred that for the convenience for calculating, can choose due north, just
South, due east or due west direction.Direct north is for example chosen as reference direction.
The centerline direction of the scope that the direction of axis line of electronic eyes, i.e. electronic eyes shoot.Example as described in Figure 5, electronics
The direction of axis line of eye A is its coverage center line.
S62, calculate corresponding vectorial and default reference direction between from each subsegment of the shape link (association) in front side path
The second angle, vector direction it is consistent with from car travel direction;
The absolute value of the differential seat angle between S63, the first angle of calculating and the second angle;
S64, judge in the absolute value of each differential seat angle with the presence or absence of the absolute value for meeting predetermined angle difference scope;If so, performing step
Rapid S65;Otherwise, this flow is terminated;
Default differential seat angle scope is similar with afore-mentioned distance value scope, can be with the shooting angle of electronic eyes, shooting on real road
Situations such as scope, predefines, it is ensured that the accuracy of matching.
It is preferred that predetermined angle difference scope is [0 °, 15 °].
S65, determine electronic eyes and match from direction between front side path.
As shown in figure 5 and figure 7, the direction of the axial line of electronic eyes A and the angle of direct north are α, electronic eyes A right sides
The closest subsegment of shape link (association) and the angle of direct north are β.The absolute value of the differential seat angle between β and α
Less than 15 degree.
After execution of step S11 and S12, the related data of all qualified electronic eyes is all cached in default depositing
In storage space.
Further, in above-mentioned steps S14, corresponding electronic eyes is carried out to the electronic eyes of institute's buffering associated data successively and is drawn
Lead, as shown in Figure 8, may be implemented as:
S81, it is successively read from caching positioned at the relevant information from front side and closest electronic eyes;
S82, when default institute's electronic eyes guiding conditions are reached, trigger the guiding of corresponding electronic eyes.
In above-mentioned steps S82, when being currently less than setpoint distance apart from the geographical position of electronic eyes from car, corresponding electronics is triggered
Eye guiding;
Above-mentioned setpoint distance is different according to different speed and/or road grade.
Such as setpoint distance electronic eyes carries out the report of electronic eyes and is shown in graphical interfaces relevant position when shifting to an earlier date 1km.
Road, different speeds due to different stage, this lead can flexibly change, on the whole, road level
Not higher, speed is faster, then the report and display when electronic eyes is guided are needed more in advance (relative to the physical location of electronic eyes
For), to reach the purpose of prompting user in time.
Based on same inventive concept, the embodiment of the present invention one additionally provides the device and navigation equipment of a kind of electronic eyes guiding, by
In the method phase that the principle of the device and navigation equipment institute solve problem is guided with the electronic eyes that foregoing previous embodiment one is provided
Seemingly, therefore the implementation of the device and navigation equipment may refer to the implementation of preceding method, repeat part and repeat no more.
The device of the electronic eyes guiding that the embodiment of the present invention one is provided, as shown in figure 9, including:
Path acquisition module 91, for during being travelled from car, persistently derive in the first setting range from front side road
Footpath or acquisition planned from front side path;
Read module 92, it is at least part of in the centered on from car second setting range for during being travelled from car, reading
The related data of electronic eyes;
Determining module 93, for the geographical position of electronic eyes and shooting direction described in the related data according to the electronic eyes,
Determine whether the electronic eyes is the electronic eyes for being needed from front side path and being guided;
Cache module 94, for cache guiding in need electronic eyes related data;
Guiding module 95, corresponding electronic eyes guiding is carried out for the electronic eyes successively to institute's buffering associated data.
Further, above-mentioned determining module 93, as shown in Figure 10, including:
Apart from matched sub-block 101, for the projection between the geographical position according to the electronic eyes and the path from front side
Distance, whether distance matches between the path from front side to determine the electronic eyes;
Direction matched sub-block 102, between the shooting direction according to the electronic eyes and the path direction from front side
Differential seat angle, whether direction matches between the path from front side to determine the electronic eyes;
Determination sub-module 103, for when determining the electronic eyes and distance matches and direction matches between front side path
When, determine that the electronic eyes is the electronic eyes for needing guiding.
Further, it is above-mentioned apart from matched sub-block 101, specifically for the geographical coordinate according to the electronic eyes, it is described from
In each subsegment of the shape link (association) in front side path, the upright projection point of the electronic eyes is determined;Calculate the electronics
Eye and the distance between each upright projection point value, when there is the distance that meets predeterminable range value scope in each distance value for calculating
During value, it is determined that distance matches between the electronic eyes and the path from front side.
Further, above-mentioned direction matched sub-block 102, shooting direction and default ginseng specifically for calculating the electronic eyes
Examine the first angle between direction;The shooting direction of the electronic eyes is the direction of axis line of electronic eyes;Calculate described from Chinese herbaceous peony
Each subsegment of the shape link (association) in square path is corresponding vectorial and the second angle between the default reference direction, institute
The direction for stating vector is consistent from car travel direction with described;The absolute value of the differential seat angle between the first angle and the second angle is calculated,
When in each absolute value for calculating exist meet predetermined angle difference scope absolute value when, it is determined that the electronic eyes with it is described from
Direction matches between front side path.
Further, above-mentioned predetermined angle difference scope is [0 °, 15 °].
Further, above-mentioned reference direction includes:Due north, due south, due east or due west direction.
Further, above-mentioned path acquisition module 91, specifically on present road from front side air line distance for N model
Enclose it is interior without crossing when, being starting point from the coordinate of car, release the stretch footpath conduct that air line distance is N forward along present road
From front side path;It is when having at least one crossing in the range of N from front side air line distance on the present road, with from car
Coordinate be starting point, according to the optimal abjection road selection strategy in default crossing, derive come from front side path successively, until with
Untill position of the car air line distance for N.
Further, above-mentioned crossing is the crossing of following roads:Higher than pre-set level, non-reverse road of the same name and can deviate from
Road of the way amount more than 1;The reverse road of the same name is to enter approach road of the same name and reverse with crossing.
Further, the optimal abjection road selection strategy in the crossing, including:
The abjection road of the same name with approach is entered is preferred;
When in the absence of with approach abjection road of the same name is entered, the abjection road minimum with angle absolute value between approach is entered is excellent
First select;
It is that the abjection road on right side is preferential among the abjection road of angle absolute value identical between approach more than two
Selection.
Further, above-mentioned path acquisition module 91, specifically for according to default trigger condition, periodically deriving
In one setting range from front side path;The default trigger condition is:It is often to travel default operating range from car
Trigger condition;Or be trigger condition to travel default operating range when the default operating range of traveling does not run into crossing,
When running into crossing when default operating range is not driven to, to run into the crossing as trigger condition;The default row
Distance is sailed less than N.
Further, above-mentioned second setting range, is determined by following manner:
The circle of pre-set radius centered on from car, or the regular polygon centered on from car, it is described from car and regular polygon
The distance on any bar side is equal to the pre-set radius.
Further, the value of above-mentioned N is equal to the pre-set radius.
Further, above-mentioned guiding module 95, specifically for being successively read from caching positioned at from front side and closest
The relevant information of electronic eyes;When the default electronic eyes guiding conditions are reached, corresponding electronic eyes guiding is triggered.
Further, above-mentioned guiding module 95, is further used for current being less than apart from the geographical position of the electronic eyes from car and sets
During set a distance, corresponding electronic eyes guiding is triggered;The setpoint distance is different according to different speed and/or road grade.
The embodiment of the present invention one additionally provides a kind of navigation equipment, the above-mentioned electronics that the equipment is provided comprising the embodiment of the present invention one
The device of eye guiding.
Above-mentioned navigation equipment can be in-vehicle navigation apparatus, or various moveable handheld terminal such as smart mobile phones etc..
The embodiment of the present invention one additionally provides a kind of server, and the server is used to perform what is provided comprising the embodiment of the present invention one
The method of above-mentioned electronic eyes guiding.
Embodiment two:
The method of the electronic eyes guiding that the embodiment of the present invention two is provided, as shown in figure 11, including:
S111, during being travelled from car, persistently derive in the first setting range from front side path or acquisition having advised
The related data of at least part of electronic eyes from front side path, and the centered on from car second setting range of reading drawn;
S112, the related data according to the electronic eyes, determine the electronic eyes whether with described from front side path distance phase
Matching;
S113, caching and the related data of the electronic eyes matched from front side path;
S114, read the relevant information being located at from each electronic eyes of front side from caching successively according to distance;
S115, when the default electronic eyes guiding conditions are reached, according to the related data of the current electronic eyes for reading, really
Whether the electronic eyes read before settled matches with described from front side path direction;
S116, upon a match, corresponding electronic eyes guiding is carried out to the current electronic eyes for reading.
Flow shown in above-mentioned steps S111-S116, similar with embodiment one, difference is that embodiment two is first to hold
Row electronic eyes with from front side path distance match the step of, will distance matching electronic eyes related data caching, then press
Distance reads electronic eyes from the related data of the electronic eyes of caching, when default electronic eyes guiding conditions are reached, then
Perform electronic eyes with derivation or acquisition from front side path direction match the step of, upon a match, just carry out the electronic eyes
Guiding, do not guide otherwise.The technical scheme of embodiment one will once perform completion apart from matching and direction matching, and implement
Example two matching process will be separated twice, and single calculation amount is smaller compared with embodiment one, but calculating frequency can increase, and be adapted to calculate
The slightly weak navigation software of performance or navigation equipment.
Technical scheme with embodiment one is similar, the technical scheme that the embodiment of the present invention two is provided, constantly in real time to from car
The a range of path in front derived or persistently obtain it is a range of planned from front side path, electronics
The reading of the data of eye, the identification step for needing the electronic eyes for guiding are same with the step of deriving path or obtain existing path planning
Shi Jinhang, it is to avoid the mistake do not brought with route matching with the data of electronic eyes by user's path change in the prior art
Misdirecting, guiding are not in time etc..Furthermore, for the data for reading electronic eyes, according to its geographical position and shooting direction, sentence
Whether the electronic eyes that breaks is the electronic eyes for needing guiding, improves the identification accuracy to electronic eyes, it is to avoid viaduct, flat
Walking along the street and rugged road etc. easily guide misguidance and guiding problem not in time caused by the electronic eyes on other roads.
Also, the above-mentioned technical proposal that the embodiment of the present invention two is provided, in the case of without Route guiding (advance
Path planning) or have a Route guiding in the case that but user deviates original programme path, due to constantly to from front side
A range of path is derived, and continuously basis carries out path modification automatically from the change of truck position so that
The route (set from front side path derived every time) derived closely, is missed with the route from car actual travel
Difference is smaller, finally ensure that matching for electronic eyes and actual travel path, improves the accuracy that electronic eyes is guided.
The specific embodiment of each step of above-mentioned steps S111-S116, reference can be made to what the electronic eyes that embodiment one is provided was guided
The specific embodiment of the corresponding step of method, something in common is repeated no more.
Based on same inventive concept, the embodiment of the present invention two additionally provides the device and navigation equipment of a kind of electronic eyes guiding, by
It is similar to the method that the electronic eyes that previous embodiment two is provided is guided in the principle of the device and navigation equipment institute solve problem, because
The implementation of this device and navigation equipment may refer to the implementation of preceding method, repeats part and repeats no more.
The device of the electronic eyes guiding that the embodiment of the present invention two is provided, as shown in figure 12, including:
Path acquisition module 121, for during being travelled from car, persistently derive in the first setting range from front side road
Footpath or acquisition planned from front side path;
First read module 122, for during being travelled from car, persistently reading in the centered on from car second setting range
The related data of at least part of electronic eyes;
Apart from matching module 123, for the related data according to the electronic eyes, determine the electronic eyes whether with described from car
Forward path distance matches;
Cache module 124, for caching the related data with the electronic eyes matched from front side path;
Second read module 125, the phase of each electronic eyes from front side is located at for being read from caching successively according to distance
Pass information;
Direction matching module 126, for when the default electronic eyes guiding conditions are reached, according to the current electronic eyes for reading
Related data, it is determined that whether the current electronic eyes for reading matches with described from front side path direction;
Guiding module 127, for when direction matching module judges to match, corresponding electronics being carried out to the current electronic eyes for reading
Eye guiding.
Further, it is above-mentioned apart from matching module 123, specifically for the geographical position according to the electronic eyes with described from Chinese herbaceous peony
Projector distance between square path, whether distance matches between the path from front side to determine the electronic eyes;
Further, above-mentioned direction matching module 126, specifically for the shooting direction according to the electronic eyes with described from Chinese herbaceous peony
Differential seat angle between square path direction, whether direction matches between the path from front side to determine the electronic eyes.
Further, it is above-mentioned to be further used for the geographical coordinate according to the electronic eyes apart from matching module 123, it is described from
In each subsegment of the shape link (association) in front side path, the upright projection point of the electronic eyes is determined;Calculate the electronics
Eye and the distance between each upright projection point value, when there is the distance that meets predeterminable range value scope in each distance value for calculating
During value, it is determined that distance matches between the electronic eyes and the path from front side.
Further, above-mentioned direction matching module 126, is further used for calculating the shooting direction and default ginseng of the electronic eyes
Examine the first angle between direction;The shooting direction of the electronic eyes is the direction of axis line of electronic eyes;Calculate described from Chinese herbaceous peony
Each subsegment of the shape link (association) in square path is corresponding vectorial and the second angle between the default reference direction, institute
The direction for stating vector is consistent from car travel direction with described;The absolute value of the differential seat angle between the first angle and the second angle is calculated,
When in each absolute value for calculating exist meet predetermined angle difference scope absolute value when, it is determined that the electronic eyes with it is described from
Direction matches between front side path.
Further, above-mentioned predetermined angle difference scope is [0 °, 15 °].
Further, above-mentioned reference direction includes:Due north, due south, due east or due west direction.
Further, above-mentioned path acquisition module 121, for from front side air line distance being in the range of N on the present road
During without crossing, being starting point from the coordinate of car, stretch footpath that air line distance is N is released forward along present road as from car
Forward path;It is when having at least one crossing in the range of N from front side air line distance on the present road, with from the seat of car
Be designated as starting point, according to the optimal abjection road selection strategy in default crossing, derive come from front side path successively, until with from car
Untill air line distance is the position of N.
Further, above-mentioned crossing is the crossing of following roads:Higher than pre-set level, non-reverse road of the same name and can deviate from
Road of the way amount more than 1;The reverse road of the same name is to enter approach road of the same name and reverse with crossing.
Further, the optimal abjection road selection strategy in above-mentioned crossing, including:
The abjection road of the same name with approach is entered is preferred;
When in the absence of with approach abjection road of the same name is entered, the abjection road minimum with angle absolute value between approach is entered is excellent
First select;
It is that the abjection road on right side is preferential among the abjection road of angle absolute value identical between approach more than two
Selection.
Further, above-mentioned path acquisition module 121, for according to default trigger condition, periodically deriving that first sets
Determine in scope from front side path;
Further, default trigger condition is:It is trigger condition often to travel default operating range from car;Or be expert at
It is trigger condition to travel default operating range when sailing default operating range and not running into crossing, it is default not driving to
When running into crossing during operating range, to run into the crossing as trigger condition;The default operating range is less than N.
Further, the second setting range, is determined by following manner:
The circle of pre-set radius centered on from car, or the regular polygon centered on from car, it is described from car and regular polygon
The distance on any bar side is equal to the pre-set radius.
Further, the value of N is equal to above-mentioned pre-set radius.
Further, default electronic eyes guiding conditions, including:Currently it is less than apart from the geographical position of the electronic eyes from car
Setpoint distance;Setpoint distance is different according to current vehicle speed and/or road grade.
The embodiment of the present invention two additionally provides a kind of navigation equipment, the above-mentioned electronics that the equipment is provided comprising the embodiment of the present invention two
The device of eye guiding.
Similar to embodiment one, above-mentioned navigation equipment can be in-vehicle navigation apparatus, or various moveable hand-held ends
End such as smart mobile phone etc..
The embodiment of the present invention two additionally provides a kind of server, and the server is used to perform what is provided comprising the embodiment of the present invention two
The method of above-mentioned electronic eyes guiding.
Embodiment three:
The method of the electronic eyes guiding that the embodiment of the present invention three is provided, as shown in figure 13, including:
S131, during being travelled from car, persistently derive in the first setting range from front side path or acquisition having planned
From front side path, and read the related data of at least part of electronic eyes in the centered on from car second setting range;
S132, the related data according to the electronic eyes, determine whether electronic eyes matches with from front side path direction;
The related data of S133, caching and the electronic eyes matched from front side path direction;
S134, read the relevant information being located at from each electronic eyes of front side from caching successively according to distance;
S135, when default electronic eyes guiding conditions are reached, according to the related data of the current electronic eyes for reading, it is determined that working as
Whether the electronic eyes of preceding reading matches with described from front side path distance;
S136, upon a match, corresponding electronic eyes guiding is carried out to the current electronic eyes for reading.
Flow shown in above-mentioned steps S131-S136, the technical scheme with embodiment two is similar, and difference is to implement
Example three is to first carry out the operation that electronic eyes is matched with from the front side path direction shape of road (shooting direction with), by direction
The related data caching of the electronic eyes of matching, then reads electronic eyes by distance from the related data of the electronic eyes of caching,
When default electronic eyes guiding conditions are reached, then perform electronic eyes and matched from front side path distance with derive or acquisition
Operation, when direction and distance all match when, just carry out the guiding of electronic eyes, otherwise abandon the guiding of the electronic eyes.With reality
Apply example two to be similar to, the technical scheme of embodiment one will once perform completion apart from matching and direction matching, and embodiment three is by two
Secondary matching process is separated, and single calculation amount is smaller compared with embodiment one, but calculating frequency can increase, and be adapted to calculating performance slightly weak
Navigation software or navigation equipment.
Technical scheme with embodiment one and embodiment two is similar, the technical scheme that the embodiment of the present invention three is provided, constantly real
When ground to derived from a range of path of front side or persistently obtained it is a range of planned from front side
Road has been planned in path, the reading of the data of electronic eyes, the identification step for needing the electronic eyes for guiding and derivation path or acquisition
The step of footpath carries out simultaneously, it is to avoid in the prior art due to user's path change with the data of electronic eyes not with route matching
The misguidance that is brought, guiding are not in time etc..Furthermore, for the data for reading electronic eyes, according to its geographical position and bat
Direction is taken the photograph, judges whether the electronic eyes is the electronic eyes for needing guiding, improve the identification accuracy to electronic eyes, it is to avoid
Viaduct, parallel road and rugged road etc. easily guide the caused misguidance of the electronic eyes on other roads and guide not in time
Problem.
Also, above-mentioned technical proposal provided in an embodiment of the present invention, in the case of without Route guiding (without advance rule
Draw path) or have a Route guiding in the case that but user deviates original programme path, due to constantly to from front side one
The path determined in scope is derived, and continuously basis carries out path modification automatically from the change of truck position so that push away
Derived route (set from front side path derived every time) with from car actual travel route closely, error
It is smaller, matching for electronic eyes and actual travel path is finally ensure that, improve the accuracy of electronic eyes guiding.
The specific embodiment of each step of above-mentioned steps S131-S136, reference can be made to the electricity that embodiment one and embodiment two are provided
The specific embodiment of the corresponding step of the method for sub- eye guiding, something in common is repeated no more.
Based on same inventive concept, the embodiment of the present invention three additionally provides the device and navigation equipment of a kind of electronic eyes guiding, by
It is similar to the method that the electronic eyes that previous embodiment three is provided is guided in the principle of the device and navigation equipment institute solve problem, because
The implementation of this device and navigation equipment may refer to the implementation of preceding method, repeats part and repeats no more.
The device of the electronic eyes guiding that the embodiment of the present invention three is provided, as shown in figure 14, including:
Path acquisition module 141, for during being travelled from car, persistently derive in the first setting range from front side road
Footpath or acquisition planned from front side path;
First read module 142, for during being travelled from car, persistently reading in the centered on from car second setting range
The related data of at least part of electronic eyes;
Direction matching module 143, for the related data according to the electronic eyes, determine the electronic eyes whether with described from car
Forward path direction matches;
Cache module 144, for caching the related data with the electronic eyes matched from front side path direction;
Second read module 145, the phase of each electronic eyes from front side is located at for being read from caching successively according to distance
Pass information;
Apart from matching module 146, for when the default electronic eyes guiding conditions are reached, according to the current electronic eyes for reading
Related data, it is determined that whether the current electronic eyes for reading matches with described from front side path distance;
Guiding module 147, for when determining to match apart from matching module, corresponding electronics being carried out to the current electronic eyes for reading
Eye guiding.
Further, above-mentioned direction matching module 143, specifically for the shooting direction according to the electronic eyes with described from Chinese herbaceous peony
Differential seat angle between square path direction, whether direction matches between the path from front side to determine the electronic eyes;
Further, it is above-mentioned apart from matching module 146, specifically for the geographical position according to the electronic eyes with described from Chinese herbaceous peony
Projector distance between square path, whether distance matches between the path from front side to determine the electronic eyes.
Further, it is above-mentioned to be further used for the geographical coordinate according to the electronic eyes apart from matching module 146, it is described from
In each subsegment of the shape link (association) in front side path, the upright projection point of the electronic eyes is determined;Calculate the electronics
Eye and the distance between each upright projection point value, when there is the distance that meets predeterminable range value scope in each distance value for calculating
During value, it is determined that distance matches between the electronic eyes and the path from front side.
Further, above-mentioned direction matching module 143, specifically for the shooting direction according to the electronic eyes with described from Chinese herbaceous peony
Differential seat angle between square path direction, whether direction matches between the path from front side to determine the electronic eyes.
Further, it is above-mentioned to be further used for the geographical coordinate according to the electronic eyes apart from matching module 146, it is described from
In each subsegment of the shape link (association) in front side path, the upright projection point of the electronic eyes is determined;Calculate the electronics
Eye and the distance between each upright projection point value, when there is the distance that meets predeterminable range value scope in each distance value for calculating
During value, it is determined that distance matches between the electronic eyes and the path from front side.
Further, above-mentioned direction matching module 143, is further used for calculating the shooting direction and default ginseng of the electronic eyes
Examine the first angle between direction;The shooting direction of the electronic eyes is the direction of axis line of electronic eyes;Calculate described from Chinese herbaceous peony
Each subsegment of the shape link (association) in square path is corresponding vectorial and the second angle between the default reference direction, institute
The direction for stating vector is consistent from car travel direction with described;The absolute value of the differential seat angle between the first angle and the second angle is calculated,
When in each absolute value for calculating exist meet predetermined angle difference scope absolute value when, it is determined that the electronic eyes with it is described from
Direction matches between front side path.
Further, above-mentioned predetermined angle difference scope is [0 °, 15 °].
Further, above-mentioned reference direction includes:Due north, due south, due east or due west direction.
Further, above-mentioned path acquisition module 141, for from front side air line distance being in the range of N on the present road
During without crossing, being starting point from the coordinate of car, stretch footpath that air line distance is N is released forward along present road as from car
Forward path;It is when having at least one crossing in the range of N from front side air line distance on the present road, with from the seat of car
Be designated as starting point, according to the optimal abjection road selection strategy in default crossing, derive come from front side path successively, until with from car
Untill air line distance is the position of N.
Further, above-mentioned crossing is the crossing of following roads:Higher than pre-set level, non-reverse road of the same name and can deviate from
Road of the way amount more than 1;The reverse road of the same name is to enter approach road of the same name and reverse with crossing.
Further, the optimal abjection road selection strategy in above-mentioned crossing, including:
The abjection road of the same name with approach is entered is preferred;
When in the absence of with approach abjection road of the same name is entered, the abjection road minimum with angle absolute value between approach is entered is excellent
First select;
It is that the abjection road on right side is preferential among the abjection road of angle absolute value identical between approach more than two
Selection.
Further, above-mentioned path acquisition module 141, for according to default trigger condition, periodically deriving that first sets
Determine in scope from front side path;
Further, default trigger condition is:It is trigger condition often to travel default operating range from car;Or be expert at
It is trigger condition to travel default operating range when sailing default operating range and not running into crossing, it is default not driving to
When running into crossing during operating range, to run into the crossing as trigger condition;The default operating range is less than N.
Further, the second setting range, is determined by following manner:
The circle of pre-set radius centered on from car, or the regular polygon centered on from car, it is described from car and regular polygon
The distance on any bar side is equal to the pre-set radius.
Further, the value of N is equal to above-mentioned pre-set radius.
Further, default electronic eyes guiding conditions, including:Currently it is less than apart from the geographical position of the electronic eyes from car
Setpoint distance;Setpoint distance is different according to current vehicle speed and/or road grade.
The embodiment of the present invention three additionally provides a kind of navigation equipment, the above-mentioned electronics that the equipment is provided comprising the embodiment of the present invention three
The device of eye guiding.
Similar to embodiment one and embodiment two, above-mentioned navigation equipment can be in-vehicle navigation apparatus, or various removable
Dynamic handheld terminal such as smart mobile phone etc..
The embodiment of the present invention three additionally provides a kind of server, and the server is used to perform what is provided comprising the embodiment of the present invention three
The method of above-mentioned electronic eyes guiding.
It should be understood by those skilled in the art that, embodiments of the invention can be provided as method, system or computer program producing
Product.Therefore, the present invention can be using the reality in terms of complete hardware embodiment, complete software embodiment or combination software and hardware
Apply the form of example.And, the present invention can be used and wherein include the computer of computer usable program code at one or more
The shape of the computer program product implemented in usable storage medium (including but not limited to magnetic disk storage and optical memory etc.)
Formula.
The present invention be with reference to method according to embodiments of the present invention, the flow chart of equipment (system) and computer program product and
/ or block diagram describe.It should be understood that each flow during flow chart and/or block diagram can be realized by computer program instructions
And/or the combination of the flow and/or square frame in square frame and flow chart and/or block diagram.These computer journeys can be provided
Sequence instruction to all-purpose computer, special-purpose computer, Embedded Processor or other programmable data processing devices processor with
Produce a machine so that being produced by the instruction of computer or the computing device of other programmable data processing devices is used for
The dress of the function that realization is specified in one flow of flow chart or multiple one square frame of flow and/or block diagram or multiple square frames
Put.
These computer program instructions may be alternatively stored in can guide computer or other programmable data processing devices in a specific way
In the computer-readable memory of work so that instruction of the storage in the computer-readable memory is produced and include command device
Manufacture, the command device realized in one flow of flow chart or multiple flow and/or block diagram one square frame or multiple side
The function of being specified in frame.
These computer program instructions can be also loaded into computer or other programmable data processing devices so that in computer
Or on other programmable devices perform series of operation steps to produce computer implemented treatment, so as to computer or other
The instruction performed on programmable device is provided for realizing in one flow of flow chart or multiple one side of flow and/or block diagram
The step of function of being specified in frame or multiple square frames.
Obviously, those skilled in the art the present invention can be carried out it is various change and modification without deviating from it is of the invention spirit and
Scope.So, if these modifications of the invention and modification belong within the scope of the claims in the present invention and its equivalent technologies,
Then the present invention is also intended to comprising these changes and modification.
Claims (14)
1. a kind of method that electronic eyes is guided, it is characterised in that including:
During being travelled from car, persistently derive in the first setting range from front side path or acquisition planned from car
The related data of at least part of electronic eyes in forward path, and the centered on from car second setting range of reading;
The geographical position of electronic eyes and shooting direction described in related data according to the electronic eyes, determine that the electronic eyes is
No is the electronic eyes for being needed from front side path and being guided;
Caching the electronic eyes of guiding in need related data;
The electronic eyes to institute's buffering associated data carries out corresponding electronic eyes guiding successively.
2. the method for claim 1, it is characterised in that electronic eyes described in the related data according to the electronic eyes
Geographical position and shooting direction, determine whether the electronic eyes is the electronic eyes for needing guiding from front side path,
Including:
The projector distance between geographical position and the path from front side according to the electronic eyes, determines that the electronic eyes is
The no distance between the path from front side matches;
Differential seat angle between shooting direction and the path direction from front side according to the electronic eyes, determines the electronic eyes
Whether direction matches between the path from front side;
When it is determined that the electronic eyes and matching from distance between front side path and when direction matches, determining the electronic eyes
To need the electronic eyes of guiding.
3. method as claimed in claim 2, it is characterised in that the geographical position according to the electronic eyes is with described from Chinese herbaceous peony
Projector distance between square path, whether distance matches between the path from front side to determine the electronic eyes, including:
According to the geographical coordinate of the electronic eyes, in each subsegment of the shape correlation from front side path, it is determined that described
The upright projection point of electronic eyes;
The distance between the electronic eyes and each upright projection point value is calculated, meets default when existing in each distance value for calculating
During the distance value of distance value scope, it is determined that distance matches between the electronic eyes and the path from front side.
4. method as claimed in claim 2, it is characterised in that the shooting direction according to the electronic eyes is with described from Chinese herbaceous peony
Differential seat angle between square path direction, whether direction matches between the path from front side to determine the electronic eyes, bag
Include:
Calculate the first angle between the shooting direction of the electronic eyes and default reference direction;The shooting side of the electronic eyes
To the direction of axis line for electronic eyes;
Calculate each subsegment from the shape correlation in front side path corresponding vectorial and the default reference direction between
Second angle, the direction of the vector is consistent from car travel direction with described;
The absolute value of the differential seat angle between the first angle and the second angle is calculated, meets pre- when existing in each absolute value for calculating
If during the absolute value of differential seat angle scope, it is determined that direction matches between the electronic eyes and the path from front side.
5. the method for claim 1, it is characterised in that derive in the range of first from front side path, including:
On the present road from front side air line distance be in the range of N without crossing when, to be starting point from the coordinate of car, along working as
Preceding road releases forward stretch footpath that air line distance is N as from front side path;
Be when having at least one crossing in the range of N from front side air line distance on the present road, with from the coordinate of car as
Point, according to the optimal abjection road selection strategy in default crossing, derives come from front side path successively, until with from car straight line away from
Untill the position for N.
6. method as claimed in claim 5, it is characterised in that it is described persistently derive in the first setting range from Chinese herbaceous peony
Square path, including:
According to default trigger condition, periodically derive in the first setting range from front side path;
The default trigger condition is:It is trigger condition often to travel default operating range from car;Or it is default in traveling
Operating range when not running into crossing, be trigger condition to travel default operating range, do not drive to default traveling away from
From when run into crossing when, to run into the crossing as trigger condition;
The default operating range is less than N.
7. the method as described in claim any one of 1-6, it is characterised in that second setting range, by following sides
Formula determines:
The circle of pre-set radius centered on from car, or the regular polygon centered on from car, it is described from car and regular polygon
The distance on any bar side is equal to the pre-set radius.
8. method as claimed in claim 7, it is characterised in that the value of the N is equal to the pre-set radius.
9. the device that a kind of electronic eyes is guided, it is characterised in that including:
Path acquisition module, for during being travelled from car, persistently derive in the first setting range from front side path
Or obtain planned from front side path;
Read module, for during being travelled from car, reading at least part of electricity in the centered on from car second setting range
The related data of sub- eye;
Determining module, for the geographical position of electronic eyes and shooting direction described in the related data according to the electronic eyes, really
Whether the fixed electronic eyes is the electronic eyes for being needed from front side path and being guided;
Cache module, for cache guiding in need electronic eyes related data;
Guiding module, corresponding electronic eyes guiding is carried out for the electronic eyes successively to institute's buffering associated data.
10. device as claimed in claim 9, it is characterised in that the determining module, including:
Apart from matched sub-block, for the projection between the geographical position according to the electronic eyes and the path from front side away from
From whether distance matches between the path from front side to determine the electronic eyes;
Direction matched sub-block, for angle between the shooting direction according to the electronic eyes and the path direction from front side
Degree is poor, and whether direction matches between the path from front side to determine the electronic eyes;
Determination sub-module, for when it is determined that the electronic eyes and match from distance between front side path and when direction matches,
Determine that the electronic eyes is the electronic eyes for needing guiding.
11. devices as claimed in claim 10, it is characterised in that described apart from matched sub-block, specifically for according to institute
The geographical coordinate of electronic eyes is stated, in each subsegment of the shape correlation from front side path, hanging down for the electronic eyes is determined
Straight subpoint;The distance between the electronic eyes and each upright projection point value is calculated, it is full when existing in each distance value for calculating
During the distance value of sufficient predeterminable range value scope, it is determined that distance matches between the electronic eyes and the path from front side.
12. devices as claimed in claim 10, it is characterised in that the direction matched sub-block, specifically for calculating institute
State the first angle between the shooting direction of electronic eyes and default reference direction;The shooting direction of the electronic eyes is electronic eyes
Direction of axis line;Calculate each subsegment from the shape correlation in front side path corresponding vectorial with the default reference
The second angle between direction, the direction of the vector is consistent from car travel direction with described;Calculate the first angle and the second folder
The absolute value of the differential seat angle between angle, when there is the absolute value for meeting predetermined angle difference scope in each absolute value for calculating,
Then determine that direction matches between the electronic eyes and the path from front side.
13. a kind of navigation equipments, it is characterised in that the navigation equipment includes the electricity as described in claim any one of 9-12
The device of sub- eye guiding.
14. a kind of servers, it is characterised in that the server is used to perform the electronics as described in claim any one of 1-8
The method of eye guiding.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108088458A (en) * | 2018-01-12 | 2018-05-29 | 山东高速信息工程有限公司 | Based on image highway navigation road conditions show method, apparatus, storage medium |
CN109166302A (en) * | 2018-08-21 | 2019-01-08 | 福州瑞芯微电子股份有限公司 | A kind of vehicle passes through the broadcasting method and storage medium of electronic eyes |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101113899A (en) * | 2007-06-12 | 2008-01-30 | 江苏新科数字技术有限公司 | Navigation method for reminding roads CCD camera of navigator |
CN102542830A (en) * | 2011-11-25 | 2012-07-04 | 深圳市凯立德欣软件技术有限公司 | Method and vehicle-mounted terminal for prompting electronic eye information |
US20140050362A1 (en) * | 2012-08-16 | 2014-02-20 | Plk Technologies Co., Ltd. | Route change determination system and method using image recognition information |
CN104316074A (en) * | 2014-11-12 | 2015-01-28 | 沈阳美行科技有限公司 | Method for designing real-time electronic eye expanded image guidance in non-guided state |
-
2015
- 2015-12-30 CN CN201511022901.1A patent/CN106931983A/en active Pending
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101113899A (en) * | 2007-06-12 | 2008-01-30 | 江苏新科数字技术有限公司 | Navigation method for reminding roads CCD camera of navigator |
CN102542830A (en) * | 2011-11-25 | 2012-07-04 | 深圳市凯立德欣软件技术有限公司 | Method and vehicle-mounted terminal for prompting electronic eye information |
US20140050362A1 (en) * | 2012-08-16 | 2014-02-20 | Plk Technologies Co., Ltd. | Route change determination system and method using image recognition information |
CN104316074A (en) * | 2014-11-12 | 2015-01-28 | 沈阳美行科技有限公司 | Method for designing real-time electronic eye expanded image guidance in non-guided state |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108088458A (en) * | 2018-01-12 | 2018-05-29 | 山东高速信息工程有限公司 | Based on image highway navigation road conditions show method, apparatus, storage medium |
CN109166302A (en) * | 2018-08-21 | 2019-01-08 | 福州瑞芯微电子股份有限公司 | A kind of vehicle passes through the broadcasting method and storage medium of electronic eyes |
CN109166302B (en) * | 2018-08-21 | 2021-03-19 | 瑞芯微电子股份有限公司 | Broadcasting method and storage medium for vehicle passing through electronic eye |
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