CN109743672A - A kind of motion profile display methods and device - Google Patents
A kind of motion profile display methods and device Download PDFInfo
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- CN109743672A CN109743672A CN201811437523.7A CN201811437523A CN109743672A CN 109743672 A CN109743672 A CN 109743672A CN 201811437523 A CN201811437523 A CN 201811437523A CN 109743672 A CN109743672 A CN 109743672A
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Abstract
The embodiment of the present application provides a kind of motion profile display methods and corresponding device, the method and device are applied in view networking, the Distribution GIS server, view networked server and view networked terminals depending in networking including successively communicating to connect, the GIS server receives the latitude and longitude information and temporal information of the view networked terminals, and it is directed to the latitude and longitude information and temporal information, generate multiple position datas;The motion profile generated for the multiple position data is shown in electronic map, when the GIS server receives the selection operation of designated position point, the target position data is highlighted on the motion profile.The embodiment of the present application can not only show motion profile, it can also displaing coordinate data, time data, the purpose of position analysis, time analysis, velocity analysis being carried out to motion profile is realized, solves the problems, such as that in the prior art positioning object can not be carried out traveling time, moving distance analysis.
Description
Technical field
This application involves view networking technology fields, more particularly to a kind of motion profile display methods and device.
Background technique
With popularizing for location technology, location technology is applied in positioning stolen vehicle more and more, is remotely located quilt
Mobile phone etc. is stolen, but in terms of being remotely located stolen vehicle, being remotely located stolen mobile phone, general user can only see positioning
Point, and can not intuitively know the mobile message and temporal information of target object.This makes location technology that can only be confined to position
Position or only show motion track this functionally, to by location technology apply remote alarms or other need to movement
In the scene that track is analysed in depth, it is only able to display position location and can not shows temporal information, the positioning skill of position coordinates
Art is not able to satisfy the demand that movement velocity analysis, distance analysis, time interval analysis are carried out by motion profile then.
Summary of the invention
In view of the above problems, it proposes the embodiment of the present application and overcomes the above problem or at least partly in order to provide one kind
A kind of motion profile display methods and device to solve the above problems.
To solve the above-mentioned problems, this application discloses a kind of motion profile display methods, the method is applied to view connection
It include view networked server, Distribution GIS server and view networked terminals, the view connection in the view networking in net
Network server and the GIS server and the view networked terminals communicate to connect, and the GIS server includes electronic map, institute
The method of stating includes:
The GIS server receives the latitude and longitude information and temporal information of the view networked server forwarding, the longitude and latitude
It spends information and the temporal information is generated and sent depending on networked terminals to the view networked server by described;Wherein, institute
Stating temporal information is time when generating the latitude and longitude information depending on networked terminals;
The GIS server is directed to the latitude and longitude information and temporal information, generates multiple position datas;Wherein, described
Position data includes coordinate value corresponding with the latitude and longitude information, and moment value corresponding with the temporal information;
The GIS server generates the motion profile for being directed to the multiple position data;
The GIS server shows the motion profile in the electronic map;
The GIS server extracts the target of the designated position point when receiving the selection operation of designated position point
Position data, and the target position data is highlighted on the motion profile.
Preferably, the GIS server further includes geographical coordinate corresponding with the electronic map, the GIS server
The step of generating the motion profile for being directed to the multiple position data, comprising:
The GIS server is according to the coordinate value, and determination is corresponding with the coordinate value fixed in the geographical coordinate
Site;
The GIS server marks the anchor point at prominent color, and/or, mark is at prominent shape;
Anchor point after mark is in turn connected to form motion profile using line segment by the GIS server.
Preferably, the step of anchor point is in turn connected to form motion profile using line segment by the GIS server, packet
It includes:
The GIS server successively extracts the corresponding moment value of the anchor point;
The GIS server extracts adjacent two-by-two the first anchor point and the second anchor point;
The GIS server calculates corresponding first moment value of first anchor point, corresponding with second anchor point
The second moment value between time difference;
The GIS server judges whether the time difference is greater than preset interval time;
If so, the GIS server connects first anchor point and second anchor point using solid line line segment;
If it is not, then the GIS server is using dashed line segment connection first anchor point and second anchor point.
Preferably, the GIS server is generated when receiving the selection operation of designated position point for selected
Designated position data, and by the designated position data the step of being shown on the motion profile, comprising:
The GIS server obtains the target of the designated position point when receiving the selection operation of designated position point
Coordinate value;
The GIS server is directed to the coordinates of targets value, searches and the coordinates of targets value in the position data
Corresponding target position data;
The GIS server highlights the target position data in the motion profile.
Preferably, the line segment is the line segment with direction signs;Wherein, the direction of the direction signs is by previous moment
It is worth corresponding anchor point and is directed toward the direction that later moment in time is worth corresponding anchor point.
To solve the above-mentioned problems, disclosed herein as well is a kind of corresponding motion profile display devices, which is characterized in that
Described device is applied in view networking, includes view networked server, Distribution GIS server and view in the view networking
Networked terminals, the view networked server and the GIS server and the view networked terminals communicate to connect, and take in the GIS
Business device includes electronic map, and described device is located in the GIS server, comprising:
Location information receiving module, for receiving the latitude and longitude information and temporal information of the view networked server forwarding,
The latitude and longitude information is generated and sent depending on networked terminals to the view networked server by described;Wherein, the time
Information is time when generating the latitude and longitude information depending on networked terminals;
Position data generation module generates multiple position datas for being directed to the latitude and longitude information and temporal information;Its
In, the position data includes coordinate value corresponding with the latitude and longitude information, and it is corresponding with the temporal information at the time of
Value;
Track generation module, for generating the motion profile for being directed to the multiple position data;
Track display module, for showing the motion profile in the electronic map;
Data disaply moudle, for when receiving the selection operation of designated position point, extracting the designated position point
Target position data, and the target position data is highlighted on the motion profile.
Preferably, the GIS server further includes geographical coordinate corresponding with the electronic map, and the track generates mould
Block includes:
Anchor point determines submodule, is used for according to the coordinate value, the determining and coordinate value in the geographical coordinate
Corresponding anchor point;
Anchor point marks submodule, is used for anchor point mark into prominent color, and/or, mark is at prominent shape;
Anchor point connects submodule, for the anchor point after mark to be in turn connected to form motion profile using line segment.
Preferably, the anchor point connects submodule further include:
Moment value extracting sub-module, for successively extracting the corresponding moment value of the anchor point;
Anchor point extracting sub-module, for extracting adjacent two-by-two the first anchor point and the second anchor point;
Time difference computational submodule, for calculating corresponding first moment value of first anchor point, with the secondth positioning
Time difference between corresponding second moment value of point;
Judging submodule, for judging whether the time difference is greater than preset interval time;
Submodule is described in solid line track, for being connected using solid line line segment when the interval time being greater than the preset time
Connect first anchor point and second anchor point;
Dashed trace describes submodule, for being connected using dashed line segment when the interval time being less than the preset time
Connect first anchor point and second anchor point.
Preferably, the data disaply moudle includes:
Coordinate value acquisition submodule, for obtaining the designated position when receiving the selection operation of designated position point
The coordinates of targets value of point;
Target data acquisition submodule, for be directed to the coordinates of targets value, in the position data search with it is described
The corresponding target position data of coordinates of targets value;
Display sub-module, for highlighting the target position data on the motion profile.
Preferably, the line segment is the line segment with direction signs, and the direction signs include arrow logo, finger mark
Know;Wherein, the direction of the direction signs is to be worth corresponding anchor point by previous moment to be directed toward the corresponding positioning of later moment in time value
The direction of point.
Compared with prior art, the embodiment of the present application has the advantage that
Firstly, the characteristic of the embodiment of the present application application view networking, GIS server will regard multiple longitudes and latitudes of networked terminals transmission
It spends information and temporal information generates position data, which includes coordinate value and moment value, and GIS server is directed to positional number
It is shown in electronic map according to generating at motion profile, and by the motion profile, when user carries out specific bit in electronic map
When setting selection operation a little, extract corresponding position data, and the position data is highlighted on motion profile, so as to
When showing the motion profile, it can also show the coordinate value and moment value of location point on motion profile, improve motion profile
Analyticity and information diversity, the mesh such as position analysis, time analysis, velocity analysis can be carried out for motion profile by realizing
, solve existing location technology can only be confined to position location or only show motion track this functionally, Wu Fashi
The problem of traveling time, moving distance analysis now are carried out to positioning object.
Secondly, GIS server is during generating motion profile, first to the corresponding positioning of coordinate value in position data
Point is labeled with protruding color or prominent shape, then anchor point is sequentially connected, so that can be intuitively on motion profile
Distinguish anchor point, to know in the motion profile, latitude and longitude information of the view networked terminals in which specific position transmission
And temporal information.
Again, when being sequentially connected anchor point, if the time difference of two adjacent anchor points is less than preset value, with void
Line connection, if more than preset value, is then connected with solid line;The movement speed of user can be intuitively evaluated using solid line and dotted line
Size being spent, being analyzed with will pass through the motion profile to the movement speed of user.
Finally, the line segment of use has direction signs, so that being finally shown in electronic map when being sequentially connected anchor point
In motion profile may indicate that the directionality in view networked terminals user moving process, solve cannot intuitively be shown in it is entire
In moving process the problem of moving direction.
Detailed description of the invention
Fig. 1 is a kind of networking schematic diagram of view networking of the application;
Fig. 2 is a kind of hardware structural diagram of node server of the application;
Fig. 3 is a kind of hardware structural diagram of access switch of the application;
Fig. 4 is that a kind of Ethernet association of the application turns the hardware structural diagram of gateway;
Fig. 5 is a kind of step flow chart of motion profile display methods embodiment 1 of the application;
Fig. 6 is environment map applied by a kind of motion profile display methods embodiment 1 of the application;
Fig. 7 is a kind of structural block diagram of motion profile display device embodiment 2 of the application;
Fig. 8 is a kind of structural block diagram of 2 track generation module of motion profile display device embodiment of the application;
Fig. 9 is a kind of structural block diagram of 2 anchor point of motion profile display device embodiment connection submodule of the application;
Figure 10 is a kind of structural block diagram of 2 data disaply moudle of motion profile display device embodiment of the application.
Specific embodiment
In order to make the above objects, features, and advantages of the present application more apparent, with reference to the accompanying drawing and it is specific real
Applying mode, the present application will be further described in detail.
It is the important milestone of network Development depending on networking, is a real-time network, can be realized HD video real-time Transmission,
Push numerous Internet applications to HD video, high definition is face-to-face.
Real-time high-definition video switching technology is used depending on networking, it can be such as high in a network platform by required service
Clear video conference, Intellectualized monitoring analysis, emergency command, digital broadcast television, delay TV, the Web-based instruction, shows video monitoring
Field live streaming, VOD program request, TV Mail, individual character records (PVR), Intranet (manages) channel by oneself, intelligent video Broadcast Control, information publication
All be incorporated into a system platform etc. services such as tens of kinds of videos, voice, picture, text, communication, data, by TV or
Computer realizes that high-definition quality video plays.
To make those skilled in the art more fully understand the embodiment of the present application, it is introduced below to depending on networking:
Depending on networking, applied portion of techniques is as described below:
Network technology (NetworkTechnology)
Traditional ethernet (Ethernet) is improved depending on the network technology innovation networked, with potential huge on network
Video flow.(Circuit is exchanged different from simple network packet packet switch (Packet Switching) or lattice network
Switching), Streaming demand is met using Packet Switching depending on networking technology.Has grouping depending on networking technology
Flexible, the simple and low price of exchange, is provided simultaneously with the quality and safety assurance of circuit switching, it is virtually electric to realize the whole network switch type
The seamless connection of road and data format.
Switching technology (Switching Technology)
Two advantages of asynchronous and packet switch that Ethernet is used depending on networking eliminate Ethernet under the premise of complete compatible and lack
It falls into, has the end-to-end seamless connection of the whole network, direct user terminal, directly carrying IP data packet.User data is in network-wide basis
It is not required to any format conversion.It is the more advanced form of Ethernet depending on networking, is a real-time exchange platform, can be realized at present mutually
The whole network large-scale high-definition realtime video transmission that networking cannot achieve pushes numerous network video applications to high Qinghua, unitizes.
Server technology (ServerTechnology)
It is different from traditional server, its Streaming Media depending on the server technology in networking and unified video platform
Transmission be built upon it is connection-oriented on the basis of, data-handling capacity is unrelated with flow, communication time, single network layer energy
Enough transmitted comprising signaling and data.For voice and video business, handled depending on networking and unified video platform Streaming Media
Complexity many simpler than data processing, efficiency substantially increase hundred times or more than traditional server.
Reservoir technology (Storage Technology)
The ultrahigh speed reservoir technology of unified video platform in order to adapt to the media content of vast capacity and super-flow and
Using state-of-the-art real time operating system, the programme information in server instruction is mapped to specific hard drive space, media
Content is no longer pass through server, and moment is directly delivered to user terminal, and user waits typical time less than 0.2 second.It optimizes
Sector distribution greatly reduces the mechanical movement of hard disc magnetic head tracking, and resource consumption only accounts for the 20% of the internet ad eundem IP, but
The concurrent flow greater than 3 times of traditional disk array is generated, overall efficiency promotes 10 times or more.
Network security technology (Network Security Technology)
Depending on the structural design networked by servicing independent licence system, equipment and the modes such as user data is completely isolated every time
The network security problem that puzzlement internet has thoroughly been eradicated from structure, does not need antivirus applet, firewall generally, has prevented black
The attack of visitor and virus, structural carefree secure network is provided for user.
It services innovative technology (Service Innovation Technology)
Business and transmission are fused together by unified video platform, whether single user, private user or a net
The sum total of network is all only primary automatic connection.User terminal, set-top box or PC are attached directly to unified video platform, obtain rich
The multimedia video service of rich colorful various forms.Unified video platform is traditional to substitute with table schema using " menu type "
Complicated applications programming, considerably less code, which can be used, can be realized complicated application, realize the new business innovation of " endless ".
Networking depending on networking is as described below:
It is a kind of central controlled network structure depending on networking, which can be Tree Network, Star network, ring network etc. class
Type, but centralized control node is needed to control whole network in network on this basis.
As shown in Figure 1, being divided into access net and Metropolitan Area Network (MAN) two parts depending on networking.
The equipment of access mesh portions can be mainly divided into 3 classes: node server, access switch, terminal (including various machines
Top box, encoding board, memory etc.).Node server is connected with access switch, and access switch can be with multiple terminal phases
Even, and it can connect Ethernet.
Wherein, node server is the node that centralized control functions are played in access net, can control access switch and terminal.
Node server can directly be connected with access switch, can also directly be connected with terminal.
Similar, the equipment of metropolitan area mesh portions can also be divided into 3 classes: metropolitan area server, node switch, node serve
Device.Metropolitan area server is connected with node switch, and node switch can be connected with multiple node servers.
Wherein, node server is the node server for accessing mesh portions, i.e. node server had both belonged to access wet end
Point, and belong to metropolitan area mesh portions.
Metropolitan area server is the node that centralized control functions are played in Metropolitan Area Network (MAN), can control node switch and node serve
Device.Metropolitan area server can be directly connected to node switch, can also be directly connected to node server.
It can be seen that be entirely a kind of central controlled network structure of layering depending on networking network, and node server and metropolitan area
The network controlled under server can be the various structures such as tree-shaped, star-like, cyclic annular.
Visually claim, access mesh portions can form unified video platform (part in virtual coil), and multiple unified videos are flat
Platform can form view networking;Each unified video platform can be interconnected by metropolitan area and wide area depending on networking.
Classify depending on networked devices
1.1 the embodiment of the present application can be mainly divided into 3 classes: server depending on the equipment in networking, interchanger (including ether
Net gateway), terminal (including various set-top boxes, encoding board, memory etc.).Depending on networking can be divided on the whole Metropolitan Area Network (MAN) (or
National net, World Wide Web etc.) and access net.
1.2 equipment for wherein accessing mesh portions can be mainly divided into 3 classes: node server, access switch (including ether
Net gateway), terminal (including various set-top boxes, encoding board, memory etc.).
The specific hardware structure of each access network equipment are as follows:
Node server:
As shown in Fig. 2, mainly including Network Interface Module 201, switching engine module 202, CPU module 203, disk array
Module 204;
Wherein, Network Interface Module 201, the Bao Jun that CPU module 203, disk array module 204 are come in enter switching engine
Module 202;Switching engine module 202 look into the operation of address table 205 to the packet come in, to obtain the navigation information of packet;
And the packet is stored according to the navigation information of packet the queue of corresponding pack buffer 206;If the queue of pack buffer 206 is close
It is full, then it abandons;All pack buffer queues of 202 poll of switching engine mould, are forwarded: 1) port if meeting the following conditions
It is less than to send caching;2) the queue package counting facility is greater than zero.Disk array module 204 mainly realizes the control to hard disk, including
The operation such as initialization, read-write to hard disk;CPU module 203 is mainly responsible between access switch, terminal (not shown)
Protocol processes, to address table 205 (including descending protocol packet address table, uplink protocol package address table, data packet addressed table)
Configuration, and, the configuration to disk array module 204.
Access switch:
As shown in figure 3, mainly including Network Interface Module (downstream network interface module 301, uplink network interface module
302), switching engine module 303 and CPU module 304;
Wherein, the packet (upstream data) that downstream network interface module 301 is come in enters packet detection module 305;Packet detection mould
Whether mesh way address (DA), source address (SA), type of data packet and the packet length of the detection packet of block 305 meet the requirements, if met,
It then distributes corresponding flow identifier (stream-id), and enters switching engine module 303, otherwise abandon;Uplink network interface mould
The packet (downlink data) that block 302 is come in enters switching engine module 303;The data packet that CPU module 204 is come in enters switching engine
Module 303;Switching engine module 303 look into the operation of address table 306 to the packet come in, to obtain the navigation information of packet;
If the packet into switching engine module 303 is that downstream network interface is gone toward uplink network interface, in conjunction with flow identifier
(stream-id) packet is stored in the queue of corresponding pack buffer 307;If the queue of the pack buffer 307 is close full,
It abandons;If the packet into switching engine module 303 is not that downstream network interface is gone toward uplink network interface, according to packet
Navigation information is stored in the data packet queue of corresponding pack buffer 307;If the queue of the pack buffer 307 is close full,
Then abandon.
All pack buffer queues of 303 poll of switching engine module, are divided to two kinds of situations in the embodiment of the present application:
If the queue is that downstream network interface is gone toward uplink network interface, meets the following conditions and be forwarded: 1)
It is less than that the port sends caching;2) the queue package counting facility is greater than zero;3) token that code rate operation module generates is obtained;
If the queue is not that downstream network interface is gone toward uplink network interface, meets the following conditions and is forwarded:
1) it is less than to send caching for the port;2) the queue package counting facility is greater than zero.
Code rate operation module 208 is configured by CPU module 204, to all downlink networks in programmable interval
Interface generates token toward the pack buffer queue that uplink network interface is gone, to control the code rate of forwarded upstream.
CPU module 304 is mainly responsible for the protocol processes between node server, the configuration to address table 306, and,
Configuration to code rate operation module 308.
Ethernet association turns gateway:
As shown in figure 4, mainly including Network Interface Module (downstream network interface module 401, uplink network interface module
402), switching engine module 403, CPU module 404, packet detection module 405, code rate operation module 408, address table 406, Bao Huan
Storage 407 and MAC adding module 409, MAC removing module 410.
Wherein, the data packet that downstream network interface module 401 is come in enters packet detection module 405;Packet detection module 405 is examined
Ethernet mac DA, ethernet mac SA, Ethernet length or frame type, the view networking mesh way address of measured data packet
DA, whether meet the requirements depending on networking source address SA, depending on networking data Packet type and packet length, corresponding stream is distributed if meeting
Identifier (stream-id);Then, MAC DA, MAC SA, length or frame type are subtracted by MAC removing module 410
(2byte), and enter corresponding receive and cache, otherwise abandon;
Downstream network interface module 401 detects the transmission caching of the port, according to the view of packet networking mesh if there is Bao Ze
Address D A knows the ethernet mac DA of corresponding terminal, adds the ethernet mac DA of terminal, Ethernet assists the MAC for turning gateway
SA, Ethernet length or frame type, and send.
The function that Ethernet association turns other modules in gateway is similar with access switch.
Terminal:
It mainly include Network Interface Module, Service Processing Module and CPU module;For example, set-top box mainly connects including network
Mouth mold block, video/audio encoding and decoding engine modules, CPU module;Encoding board mainly includes Network Interface Module, video encoding engine
Module, CPU module;Memory mainly includes Network Interface Module, CPU module and disk array module.
The equipment of 1.3 metropolitan area mesh portions can be mainly divided into 2 classes: node server, node switch, metropolitan area server.
Wherein, node switch mainly includes Network Interface Module, switching engine module and CPU module;Metropolitan area server mainly includes
Network Interface Module, switching engine module and CPU module are constituted.
2, networking data package definition is regarded
2.1 access network data package definitions
Access net data packet mainly include following sections: destination address (DA), source address (SA), reserve bytes,
payload(PDU)、CRC。
As shown in the table, the data packet for accessing net mainly includes following sections:
DA | SA | Reserved | Payload | CRC |
Wherein:
Destination address (DA) is made of 8 bytes (byte), and first character section indicates type (such as the various associations of data packet
Discuss packet, multicast packet, unicast packet etc.), be up to 256 kinds of possibility, the second byte to the 6th byte is metropolitan area net address,
Seven, the 8th bytes are access net address;
Source address (SA) is also to be made of 8 bytes (byte), is defined identical as destination address (DA);
Reserve bytes are made of 2 bytes;
The part payload has different length according to the type of different datagrams, is if it is various protocol packages
64 bytes are 32+1024=1056 bytes if it is single group unicast packets words, are not restricted to above 2 kinds certainly;
CRC is made of 4 bytes, and calculation method follows the Ethernet CRC algorithm of standard.
2.2 Metropolitan Area Network (MAN) packet definitions
The topology of Metropolitan Area Network (MAN) is pattern, may there is 2 kinds, connection even of more than two kinds, i.e. node switching between two equipment
It can all can exceed that 2 kinds between machine and node server, node switch and node switch, node switch and node server
Connection.But the metropolitan area net address of metropolitan area network equipment is uniquely, to close to accurately describe the connection between metropolitan area network equipment
System, introduces parameter in the embodiment of the present application: label, uniquely to describe a metropolitan area network equipment.
(Multi-Protocol Label Switch, multiprotocol label are handed over by the definition of label and MPLS in this specification
Change) label definition it is similar, it is assumed that between equipment A and equipment B there are two connection, then data packet from equipment A to equipment B just
There are 2 labels, data packet also there are 2 labels from equipment B to equipment A.Label is divided into label, outgoing label, it is assumed that data packet enters
The label (entering label) of equipment A is 0x0000, and the label (outgoing label) when this data packet leaves equipment A may reform into
0x0001.The networking process of Metropolitan Area Network (MAN) is to enter network process under centralized control, also means that address distribution, the label of Metropolitan Area Network (MAN)
Distribution be all to be dominated by metropolitan area server, node switch, node server be all passively execute, this point with
The label distribution of MPLS is different, and the distribution of the label of MPLS is the result that interchanger, server are negotiated mutually.
As shown in the table, the data packet of Metropolitan Area Network (MAN) mainly includes following sections:
DA | SA | Reserved | Label | Payload | CRC |
That is destination address (DA), source address (SA), reserve bytes (Reserved), label, payload (PDU), CRC.Its
In, the format of label, which can refer to, such as gives a definition: label is 32bit, wherein high 16bit retains, only with low 16bit, its position
Set is between the reserve bytes and payload of data packet.
Based on the above-mentioned characteristic of view networking, one of core idea of the embodiment of the present application is proposed, it then follows regard the association of networking
View, GIS server will regard the multiple latitude and longitude informations and temporal information generation position data that networked terminals are sent, the position data
Including coordinate value and moment value, GIS server generates motion profile for position data, and the motion profile is shown in electronics
In map, when user carries out the selection operation of designated position point in electronic map, extract corresponding position data, so as to
When showing the motion profile, the coordinate value and moment value of location point on motion profile can also be shown.Improve motion profile
Analyticity and information diversity realize the purpose of carrying out position analysis, time analysis, velocity analysis to motion profile, solution
Existing location technology of having determined can only be confined to position location or only show motion track this functionally, cannot achieve to fixed
Position object carries out the problem of analysis such as traveling time, moving distance, movement speed.
Embodiment one
Referring to Fig. 5, a kind of motion profile display methods for showing the application applies the step flow chart of example 1, and the application is real
A kind of motion profile display methods for applying example can be applied in view networking, described depending on may include view the Internet services in networking
Device, Distribution GIS server and view networked terminals, it is described can be with the GIS server and institute depending on networked server
View networked terminals communication connection is stated, the GIS server may include electronic map.
View networked environment applied by the embodiment of the present application is shown in Figure 6, leads between GIS server and view networked terminals
Cross view networked server realize communication connection, this depending on networked server can be understood as GIS server and view networked terminals into
The transfer server of row data transmission, i.e., the data generated depending on networked terminals first pass to view networked server, depending on networked server
GIS server is transmitted this data to again, in the view networked environment, between GIS server and view networked server, is regarded and is networked
Server and be view networking protocol depending on the communication protocol used between networked terminals.
GIS server can be understood as the server of Distribution GIS platform, it can be hard, soft in computer
Under part system is supported, to carrying out data management, data transmission and data processing in GIS platform, to support GIS platform to entire or
Related geographic distribution data in part epigeosphere (including atmosphere) space is acquired, stores, managing, operation, analysis,
It is shown and described.
It can be understood as the terminal with functions such as location information acquisition, position data generation, networkings depending on networked terminals,
The portable devices such as mobile phone, tablet computer, the electronic watch of view networking can be registered with, the application is not to view networked terminals
Concrete type limits.
Electronic map can be understood as the visual map that can be shown on electronic curtain of GIS server support, practical
When showing the electronic map, which can be sent to certain browse page by websocket communication protocol by GIS server
In face, monitoring personnel can enter the browsing pages and check the electronic map.
The motion profile display methods of the embodiment of the present application can specifically include following steps:
Step 501, the GIS server receives the latitude and longitude information and temporal information of the view networked server forwarding,
The latitude and longitude information and the temporal information are generated and sent depending on networked terminals to the view networked server by described;
Wherein, the temporal information is time when generating the latitude and longitude information depending on networked terminals.
In actual embodiment, depending on that can have the APP of position acquisition function to join to obtain view by installing on networked terminals
The position that network termination is presently in, and latitude and longitude information is generated for the position.For example, can install palm leads to APP, the palm
Logical APP has a key warning function, after user clicks the key warning function key, generates be presently in depending on networked terminals immediately
The latitude and longitude information and temporal information of position, wherein latitude and longitude information can be obtained by GPS positioning system, depending on networked terminals
The latitude and longitude information and temporal information are sent to view networked server, depending on networked server again by the latitude and longitude information and time
Information is sent to GIS server.
In practice, can have two to the mode for sending latitude and longitude information and temporal information depending on networked server depending on networked terminals
Kind mode:
First way, user can click the key warning function that palm leads to APP at regular intervals, longitude and latitude believed
Breath and temporal information are sent to view networked server, and user is actively grasped and sends latitude and longitude information and temporal information
Interval time and number.
The second way, user can open the automaticdata that palm leads in APP and send function after sending information for the first time
Can, so that latitude and longitude information and temporal information are sent to view networked server for the first time depending on networked terminals, it can be at interval of one
The section time is presently in position with regard to basis and automatically generates latitude information and temporal information, and latitude and longitude information and temporal information are sent out
It send to view networked server, wherein the interval time that information generates and sends can be set by user oneself, can also be
It is preset in APP.
It is generated simultaneously it should be noted that leading to APP as photopic vision networked terminals for example using palm in the embodiment of the present application
In practice, other are can also be used with location information in the detailed process and method for sending latitude and longitude information and temporal information
Other APP or application software of systematic function and data sending function, Lai Zhihang generate and send latitude and longitude information and time letter
The operation of breath, the application are not limited to depending on the specifically used positioning software of networked terminals.
Step 502, the GIS server is directed to the latitude and longitude information and temporal information, generates multiple position datas.
Wherein, the position data includes coordinate value corresponding with the latitude and longitude information, and with the temporal information
Corresponding moment value.
The latitude and longitude information and temporal information that GIS server receives are based on the character transmitted depending on networking protocol
String, GIS server can be parsed using XML analytic technique pair warp and weft degree information and temporal information, get actual seat
Scale value and moment value, later, the coordinate value that will acquire and moment value corresponding with coordinate value pairing, and it is combined into a position
Data, having multiple coordinate values and moment value then has multiple position datas.
Coordinate value in present application example can be understood as the longitude and latitude that latitude and longitude information obtains after parsing
Value, " N, 112 ° of 13 ' 19 " E for example, the coordinate value can indicate are as follows: 22 ° 42 ' 09;Moment value can be understood as temporal information
What is obtained after parsing has year, month, day and the digit time at specific moment, for example, the moment value can indicate are as follows: 2011/
01/02/10:14。
Step 503, the GIS server generates the motion profile for being directed to the multiple position data.
It in practice, include that a coordinate value and a moment value, multiple position datas are then wrapped in each position data
Value at the time of including multiple coordinate values and match with the coordinate value, has coordinate value that can then be sketched the contours of according to each coordinate value
Motion profile has moment value that can then be sketched the contours according to the sequencing of moment value, when forming motion profile thus shape
At the motion profile consistent with view networked terminals movement routine.
It further include correspondingly with the electronic map in a kind of preferable example of the application, in the GIS server
Coordinate is managed, which can be understood as being subject to the geographical co-ordinate system of longitude and latitude, the coordinate used in GIS server
System can be WGS84 coordinate system, this step 503 can specifically include following sub-step:
Sub-step 5031, the GIS server is according to the coordinate value, the determining and coordinate in the geographical coordinate
It is worth corresponding anchor point.
In practice, which can be sent into geographical coordinate by GIS server, the basis in geographical coordinate
Longitude and latitude value in coordinate value determine anchor point, for example, coordinate value is 22 ° 42 ' 09, " N, 112 ° 13 ' 19 " E is indicated
22 degree 42 points of north latitude 9 seconds, 112 degree 13 points of east longitude 19 seconds, by 22 degree 42 points of north latitude 9 seconds and 112 degree 13 of east longitude in geographical coordinate
The point of intersection in 19 seconds is divided to be determined as anchor point.
Sub-step 5032, the GIS server mark the anchor point at prominent color, and/or, mark is at prominent shape
Shape.
When actually marking anchor point, GIS server can use javaScript language and determine this in geographical coordinate
Site is marked into color outstanding, perhaps marks the anchor point at shape outstanding or anchor point use is protruded color
It is labeled with prominent shape, wherein prominent color can be and the different color of the coloration of electronic map color, prominent shape
Shape can be round or ellipse, marks out prominent color or prominent shape is for the ease of will be in anchor point and geographical coordinate
Others point distinguishes, and to facilitate user in the case where active is grasped and sends location information, monitoring personnel intuitively knows user
Location information send place.
Anchor point after mark is in turn connected to form motion profile using line segment by sub-step 5033, the GIS server.
When actual implementation, GIS server can use javaScript language connection anchor point, described in the present embodiment
It is sequentially connected, it can be understood as be to connect anchor point according to the sequencing of the corresponding moment value of anchor point, for example, A is positioned
Value is 2011/01/02/10:14 at the time of point, and value is 2011/01/02/10:24 at the time of B anchor point, at the time of C anchor point
Value is 2011/01/02/10:28, then A anchor point is connected to B anchor point, and B anchor point is connected to C anchor point.
As a kind of preferable example of the embodiment of the present application, the line segment is the line segment with direction signs;Wherein, described
The direction of direction signs is worth corresponding anchor point by previous moment and is directed toward the direction that later moment in time is worth corresponding anchor point.
The motion profile connected using line segment, in display, user it is seen that an irregular route, user according to
The irregular route cannot judge that initial position can not judge to move towards, in some cases, if depositing simultaneously in motion profile
In closed path and open route, then in closed path, it can not determine depending on networked terminals user it is clockwise mobile or inverse
When needle movement, for example, from the place A to the place B depending on networked terminals user, road is behind the ground C and behind the place D since the place B
It is returned to the place B, if it is end position that only the mark place A, which is initial position, the place B, still can not judge view networking end
End subscriber is according to returning to the place B clockwise, also according to counterclockwise returning to the place B.Thus using with direction
The line segment of mark connects anchor point, can identify the specific moving direction from a upper anchor point to next anchor point.For example, such as
In the preceding example, arrow is all marked on the connecting line segment of B anchor point and C anchor point and D anchor point, then can be explicitly shown
It is to return to the place B according to clockwise direction or counter clockwise direction depending on networked terminals user.For need to motion profile into
In the application environment of row detailed analysis, for example, marking out direction between anchor point in alarm positioning and being conducive to analyze report
The motion profile can also be printed and be achieved by the action trail of alert people, so that in subsequent progress merit analysis, it can direct root
Movement trend is learnt according to the direction shown on the motion profile printed, and does not have to transfer each anchor point into system again
Time data could specifically judge it is which anchor point is first, which anchor point is rear.
In practice, direction signs can be arrow, be also possible to move humanoid mark, finger orientation mark etc., in this Shen
The concrete shape of direction signs please not be limited in embodiment.
As a kind of preferable example of the embodiment of the present application, for convenience to view networked terminals user under certain application scenarios
Movement velocity intuitively shown that the sub-step 5033 can specifically include following sub-step:
Sub-step 50331, the GIS server successively extract the corresponding moment value of the anchor point;
Specifically, value can be and extract from position data at the time of GIS server extracts anchor point, i.e., by position
Value individually puts forward at the time of in data, so as to subsequent analysis.
Sub-step 50332, the GIS server extract adjacent two-by-two the first anchor point and the second anchor point.
When actual implementation, it can be understood as be value and the second anchor point at the time of extracting the first adjacent two-by-two anchor point
Moment value.
For example, there are tri- anchor points of A, B, C, then A anchor point and B anchor point are extracted, B anchor point and C are positioned.
Sub-step 50333, the GIS server calculate corresponding first moment value of first anchor point, with described the
Time difference between corresponding second moment value of two anchor points.
Such as preceding example, the time difference of value and value at the time of B anchor point at the time of GIS server calculates A anchor point, B is calculated
The time difference of value and value at the time of C anchor point at the time of anchor point.
Sub-step 50334, the GIS server judge whether the time difference is greater than preset interval time;If so,
Rotor step 50335, if it is not, then rotor step 50336.
Wherein, preset interval time can be configured according to the actual situation by monitoring personnel, for example, 5 minutes.
Sub-step 50335, then the GIS server connects first anchor point using solid line line segment and determines with described second
Site.
For example, at the time of A anchor point value and at the time of B anchor point the time difference of value be 10 minutes, then connected with solid line line segment
Connect A anchor point and B anchor point.
Sub-step 50336, then the GIS server connects first anchor point using dashed line segment and determines with described second
Site.
For example, at the time of B anchor point value and at the time of C anchor point the time difference of value be 3 minutes, then connected with dashed line segment
B anchor point and C anchor point.
When using preferred embodiment described in sub-step 50331 to sub-step 50336, it is right under certain application scenarios to facilitate
Visual assessment is carried out depending on networked terminals user movement speed.For example, the distance and B anchor point of A anchor point to B anchor point are fixed to C
In the case that the distance in site is identical or difference very little, A anchor point is that solid line connects with B anchor point on motion profile, B
Anchor point is that dotted line connects with C anchor point, then shows that view networked terminals user is small from A anchor point to the movement speed of B anchor point
In from B anchor point to the speed of C anchor point.
The preferred embodiment can be applied under the scene of alarm monitoring, convenient when alarming depending on networked terminals user
Whereabouts depending on networked terminals user are tracked, to arrange to succour, are commented by intuitively observing dotted line or solid line synthesis
Estimate the movement speed for regarding networked terminals user out, changes so as to assess the physical condition of view networked terminals user, is dangerous tight
Anxious degree etc. with timely arrangement relief, and makes preventative arrangement when judging that velocity variations are caused by physical condition variation.
Certainly, which can be applied under agonistic sports scene, to facilitate to sportsman during the motion
Speed be monitored, analyze.
Step 504, the GIS server shows the motion profile in the electronic map.
In practice, which is plotted in electronic map by GIS server by javaScript language, in turn,
Drafting is had the electronic map of motion profile that the electronic map is sent to certain by websocket communication protocol by GIS server
It is shown in browsing pages, monitoring personnel can enter the browsing pages and check the electronic map.
Step 505, the GIS server extracts the designated position when receiving the selection operation of designated position point
The target position data of point, and the target position data is highlighted on the motion profile.
The selection operation of designated position point can be understood as carrying out on browsing pages to a certain on the motion profile
The mouse selection operation of anchor point, certainly in practical operation, if the screen of display is touch screen, the choosing of the designated position point
The electronics that operation is selected it can be appreciated that being the touch selection operation to anchor point a certain on motion profile, after drawing motion profile
Map is shown on browsing pages, and in selection operation, the command information of the selection operation can be communicated by websocket
Agreement returns to GIS server.
As a kind of preferable example of the embodiment of the present application, step 505 can specifically include following sub-step:
Sub-step 5051, the GIS server obtain the specific bit when receiving the selection operation of designated position point
Set coordinates of targets value a little.
The selection operation of designated position point can trigger a kind of instruction for corresponding to the location point, which may include the position
Coordinate value mark, serial number mark or the geographical coordinate of point are the other identifier that the anchor point distributes automatically, uniquely to specify
The designated position point includes the mark of A anchor point, example in the instruction then triggered for example, being the selection operation for A anchor point
Such as, 01.When GIS server receives the selection operation, then the coordinates of targets value of designated position point is obtained immediately, for example, being directed to A
After the selection operation of anchor point is received by GIS server, GIS server is directed to A anchor point according to 01 mark determination,
Then remove the coordinate value of acquisition A anchor point.
Sub-step 5052, the GIS server be directed to the coordinates of targets value, in the position data search with it is described
The corresponding target position data of coordinates of targets value.
Include coordinate value and moment value in position data, position data can then be determined by coordinate value.
Sub-step 5053, the GIS server highlight the target position data in the motion profile.
After GIS server extracts target position data, which can be passed through into websocket communication protocols
View is sent to the browsing pages where electronic map, and browsing pages can be shown the target position data using web front-end technology
Show on motion profile.
When needing to show the position data of whole anchor points, can be positioned with each on adopting consecutive click chemical reaction motion profile
Point, it is convenient that comprehensively deep speed is carried out to motion profile to show the position data of each anchor point on the electronic map
Analysis, moving distance analysis.
A kind of motion profile display methods of the embodiment of the present application, GIS server can will regard the more of networked terminals transmission
A latitude and longitude information and temporal information generate position data, which includes coordinate value and moment value, and GIS server can be with
Generate motion profile for position data, and the motion profile shown in electronic map, when user in electronic map into
When the selection operation of row designated position point, corresponding position data is extracted, to show when showing the motion profile
The coordinate value and moment value of location point on motion profile.The analyticity and information diversity for improving motion profile, realize
The purpose of carrying out position analysis, time analysis, velocity analysis to motion profile, solving existing location technology can only be confined to
Position location or only show motion track this functionally, cannot achieve to positioning object carry out traveling time, moving distance,
The problem of movement speed etc. is analyzed.
Using a kind of motion profile display methods of the embodiment of the present application, can realize under agonistic sports scene to fortune
Mobilize the monitoring and analysis of movement velocity;It can also realize under alarm monitoring scene to the whereabouts tracking of alarm personnel, speed
Analysis, alarm environmental hazard degree analyzing, to provide reasonable relief in time;It can also be in the monitoring scene to special population
Under, it realizes and behavior tracking, behavioural analysis is carried out to special population.
It should also be noted that, for simple description, therefore, it is stated as a series of movements for embodiment of the method
Combination, but those skilled in the art should understand that, the embodiment of the present application is not limited by the described action sequence, because
According to the embodiment of the present application, some steps may be performed in other sequences or simultaneously.Secondly, those skilled in the art also answer
This knows that the embodiments described in the specification are all preferred embodiments, and related movement not necessarily the application is real
It applies necessary to example.
Embodiment two
Referring to Fig. 7, Fig. 7 shows a kind of structural block diagram of motion profile display device of the embodiment of the present application 2, to according to the facts
Apply the processing method of example 1, described device can be applied in view networking, may include in the view networking regard networked server,
Distribution GIS server and view networked terminals, it is described can be with the GIS server and the view depending on networked server
Networked terminals communication connection, may include electronic map in the GIS server, and described device is located in the GIS server,
It can specifically include with lower module:
Location information receiving module 701, can be used for receiving it is described view networked server forwarding latitude and longitude information and when
Between information, the latitude and longitude information is generated and sent depending on networked terminals to the view networked server by described;Wherein, institute
Stating temporal information is time when generating the latitude and longitude information depending on networked terminals;
Position data generation module 702 can be used for generating multiple positions for the latitude and longitude information and temporal information
Data;Wherein, the position data includes coordinate value corresponding with the latitude and longitude information, and corresponding with the temporal information
At the time of value;
Track generation module 703 can be used for generating the motion profile for being directed to the multiple position data;
Track display module 704 can be used for showing the motion profile in the electronic map;
Data disaply moudle 705 can be used for extracting the specific bit when receiving the selection operation of designated position point
Target position data a little is set, and the target position data is highlighted on the motion profile.
Wherein, location information receiving module 701 can be communicated to connect with position data generation module 702, and position data is raw
It is communicated to connect at module 702 and track generation module 703, track generation module 703 and data disaply moudle 705 communicate to connect.
As a kind of preferable example of the embodiment of the present application, the GIS server can also include and the electronic map
Corresponding geographical coordinate, referring to shown in Fig. 8, Fig. 8 shows the structural block diagram of the track generation module of the embodiment of the present application 2, institute
Stating track generation module 703 may include following submodule:
Anchor point determines submodule 7031, can be used for according to the coordinate value, marked out in the geographical coordinate with
The corresponding anchor point of the coordinate value;
Anchor point marks submodule 7032, can be used for marking the anchor point at prominent color, and/or, mark at
Prominent shape;
Anchor point connects submodule 7033, can be used for that the anchor point after mark is in turn connected to form movement using line segment
Track.
As a kind of preferable example of the embodiment of the present application, the line segment can be the line segment with direction signs, described
Direction signs may include arrow logo, finger mark;Wherein, the direction of the direction signs is corresponding to be worth by previous moment
Anchor point is directed toward the direction that later moment in time is worth corresponding anchor point.
It in practice, may include the line segment library with the line segment of direction signs in anchor point connection submodule 7033,
When fixed site of connection, phase can be transferred according to the corresponding anchor point of previous moment value anchor point corresponding with later moment in time value
The line segment for the direction signs answered.
In this preferable example, anchor point determines that submodule 7031 can be marked with position data generation module 702, anchor point
Submodule 7032 and anchor point connection submodule 7033 communicate to connect.
Referring to shown in Fig. 9, Fig. 9 shows the structural schematic diagram that the application implements 2 anchor point connection submodule, as this
Apply for a kind of preferable example of embodiment, the anchor point connection submodule 7033 can also include following submodule:
Moment value extracting sub-module 7033a can be used for successively extracting the corresponding moment value of the anchor point;
Anchor point extracting sub-module 7033b can be used for extracting adjacent two-by-two the first anchor point and the second anchor point;
Time difference computational submodule 7033c can be used for calculating corresponding first moment value of first anchor point, with
Time difference between corresponding second moment value of second anchor point;
Judging submodule 7033d, can be used for judging whether the time difference is greater than preset interval time;
Submodule 7033e is described in solid line track, can be used for when the interval time being greater than the preset time, using reality
Line line segment connects first anchor point and second anchor point;
Dashed trace describes submodule 7033f, can be used for when the interval time being less than the preset time, using void
Line line segment connects first anchor point and second anchor point.
Wherein, moment value extracting sub-module 7033a can lead to the track generation module 703 and connect, so as to from track
Value at the time of extracting each anchor point in module, moment value extracting sub-module 7033a can extract sub- 7033b mould with anchor point
Block, the communication connection of time difference computational submodule 7033c, time difference computational submodule 7033c can be logical with judging submodule 7033d
Letter connection, judging submodule 7033d can describe submodule 7033e with solid line track and dashed trace describes submodule 7033f
Communication connection.
Referring to Fig.1 shown in 0, Figure 10 shows the structural schematic diagram of the data disaply moudle of the embodiment of the present application 2, as this
Apply for a kind of preferable example of embodiment, the data disaply moudle 705 can specifically include following submodule:
Coordinate value acquisition submodule 7041 can be used for when receiving the selection operation of designated position point, described in acquisition
The coordinates of targets value of designated position point;
Target data acquisition submodule 7042 can be used for looking into the position data for the coordinates of targets value
Look for target position data corresponding with the coordinates of targets value;
Display sub-module 7043 can be used for highlighting the target position data on the motion profile.
Wherein, coordinate value acquisition submodule 7041 can be communicated to connect with the browsing pages where electronic map, received and used
The selection operation that family is carried out in browsing pages for certain designated position point on motion profile, target data acquisition submodule 7042 can
To be communicated to connect with coordinate value acquisition submodule 7041, display sub-module 7043.
Using the motion profile display device of the embodiment of the present application, it can will regard multiple longitudes and latitudes that networked terminals are sent and believe
Breath and temporal information generate position data, which includes coordinate value and moment value, and is generated for position data into fortune
Dynamic rail mark, and the motion profile is shown in electronic map, when user carries out the selection of designated position point in electronic map
When operation, corresponding position data is extracted, and the position data is highlighted on motion profile, to show the movement
When track, can also show the coordinate value and moment value of location point on motion profile, improve motion profile analyticity and
Information diversity realizes the purpose of can carrying out position analysis, time analysis, velocity analysis for motion profile, solves
Existing location technology can only be confined to position location or only show motion track this functionally, cannot achieve to positioning pair
The problem of as carrying out traveling time, moving distance analysis
For device embodiment, since it is basically similar to the method embodiment, related so being described relatively simple
Place illustrates referring to the part of embodiment of the method.
All the embodiments in this specification are described in a progressive manner, the highlights of each of the examples are with
The difference of other embodiments, the same or similar parts between the embodiments can be referred to each other.
It should be understood by those skilled in the art that, the embodiments of the present application may be provided as method, apparatus or calculating
Machine program product.Therefore, the embodiment of the present application can be used complete hardware embodiment, complete software embodiment or combine software and
The form of the embodiment of hardware aspect.Moreover, the embodiment of the present application can be used one or more wherein include computer can
With in the computer-usable storage medium (including but not limited to magnetic disk storage, CD-ROM, optical memory etc.) of program code
The form of the computer program product of implementation.
The embodiment of the present application is referring to according to the method for the embodiment of the present application, terminal device (system) and computer program
The flowchart and/or the block diagram of product describes.It should be understood that flowchart and/or the block diagram can be realized by computer program instructions
In each flow and/or block and flowchart and/or the block diagram in process and/or box combination.It can provide these
Computer program instructions are set to general purpose computer, special purpose computer, Embedded Processor or other programmable data processing terminals
Standby processor is to generate a machine, so that being held by the processor of computer or other programmable data processing terminal devices
Capable instruction generates for realizing in one or more flows of the flowchart and/or one or more blocks of the block diagram
The device of specified function.
These computer program instructions, which may also be stored in, is able to guide computer or other programmable data processing terminal devices
In computer-readable memory operate in a specific manner, so that instruction stored in the computer readable memory generates packet
The manufacture of command device is included, which realizes in one side of one or more flows of the flowchart and/or block diagram
The function of being specified in frame or multiple boxes.
These computer program instructions can also be loaded into computer or other programmable data processing terminal devices, so that
Series of operation steps are executed on computer or other programmable terminal equipments to generate computer implemented processing, thus
The instruction executed on computer or other programmable terminal equipments is provided for realizing in one or more flows of the flowchart
And/or in one or more blocks of the block diagram specify function the step of.
Although preferred embodiments of the embodiments of the present application have been described, once a person skilled in the art knows bases
This creative concept, then additional changes and modifications can be made to these embodiments.So the following claims are intended to be interpreted as
Including preferred embodiment and all change and modification within the scope of the embodiments of the present application.
Finally, it is to be noted that, herein, relational terms such as first and second and the like be used merely to by
One entity or operation are distinguished with another entity or operation, without necessarily requiring or implying these entities or operation
Between there are any actual relationship or orders.Moreover, the terms "include", "comprise" or its any other variant meaning
Covering non-exclusive inclusion, so that process, method, article or terminal device including a series of elements not only wrap
Those elements are included, but also including other elements that are not explicitly listed, or further includes for this process, method, article
Or the element that terminal device is intrinsic.In the absence of more restrictions, being wanted by what sentence "including a ..." limited
Element, it is not excluded that there is also other identical elements in process, method, article or the terminal device for including the element.
Above to a kind of motion profile display methods provided herein and a kind of motion profile display device, carry out
It is discussed in detail, specific examples are used herein to illustrate the principle and implementation manner of the present application, above embodiments
Illustrate to be merely used to help understand the present processes and its core concept;At the same time, for those skilled in the art, according to
According to the thought of the application, there will be changes in the specific implementation manner and application range, in conclusion the content of the present specification
It should not be construed as the limitation to the application.
Claims (10)
1. a kind of motion profile display methods, which is characterized in that the method is applied in view networking, described depending on including in networking
Depending on networked server, Distribution GIS server and view networked terminals, the view networked server and the GIS service
Device and view networked terminals communication connection, the GIS server includes electronic map, which comprises
The GIS server receives the latitude and longitude information and temporal information of the view networked server forwarding, the longitude and latitude letter
Breath and the temporal information are generated and sent depending on networked terminals to the view networked server by described;Wherein, when described
Between information be time when generating the latitude and longitude information depending on networked terminals;
The GIS server is directed to the latitude and longitude information and temporal information, generates multiple position datas;Wherein, the position
Data include coordinate value corresponding with the latitude and longitude information, and moment value corresponding with the temporal information;
The GIS server generates the motion profile for being directed to the multiple position data;
The GIS server shows the motion profile in the electronic map;
The GIS server extracts the target position of the designated position point when receiving the selection operation of designated position point
Data, and the target position data is highlighted on the motion profile.
2. the method according to claim 1, wherein the GIS server further includes and the electronic map pair
The step of geographical coordinate answered, the GIS server generates the motion profile for being directed to the multiple position data, comprising:
The GIS server determines anchor point corresponding with the coordinate value according to the coordinate value in the geographical coordinate;
The GIS server marks the anchor point at prominent color, and/or, mark is at prominent shape;
Anchor point after mark is in turn connected to form motion profile using line segment by the GIS server.
3. according to the method described in claim 2, it is characterized in that, the GIS server using line segment by the anchor point according to
The step of secondary connection forms motion profile, comprising:
The GIS server successively extracts the corresponding moment value of the anchor point;
The GIS server extracts adjacent two-by-two the first anchor point and the second anchor point;
The GIS server calculates corresponding first moment value of first anchor point, and corresponding with second anchor point the
Time difference between two moment values;
The GIS server judges whether the time difference is greater than preset interval time;
If so, the GIS server connects first anchor point and second anchor point using solid line line segment;
If it is not, then the GIS server is using dashed line segment connection first anchor point and second anchor point.
4. according to the method described in claim 1, the GIS server when receiving the selection operation of designated position point, is given birth to
At being directed to the selected designated position data, and by the designated position data the step of being shown on the motion profile,
Include:
The GIS server obtains the coordinates of targets of the designated position point when receiving the selection operation of designated position point
Value;
The GIS server is directed to the coordinates of targets value, searches in the position data corresponding with the coordinates of targets value
Target position data;
The GIS server highlights the target position data in the motion profile.
5. according to the method described in claim 2, it is characterized in that, the line segment is the line segment with direction signs;Wherein, institute
The direction for stating direction signs is worth corresponding anchor point by previous moment and is directed toward the direction that later moment in time is worth corresponding anchor point.
6. a kind of motion profile display device, which is characterized in that described device is applied in view networking, described depending on including in networking
Depending on networked server, Distribution GIS server and view networked terminals, the view networked server and the GIS service
Device and view networked terminals communication connection include electronic map in the GIS server, and described device is located at GIS clothes
It is engaged in device, comprising:
Location information receiving module, it is described for receiving the latitude and longitude information and temporal information of the view networked server forwarding
Latitude and longitude information is generated and sent depending on networked terminals to the view networked server by described;Wherein, the temporal information
For it is described generate depending on networked terminals the latitude and longitude information when time;
Position data generation module generates multiple position datas for being directed to the latitude and longitude information and temporal information;Wherein,
The position data includes coordinate value corresponding with the latitude and longitude information, and moment value corresponding with the temporal information;
Track generation module, for generating the motion profile for being directed to the multiple position data;
Track display module, for showing the motion profile in the electronic map;
Data disaply moudle, for when receiving the selection operation of designated position point, extracting the target of the designated position point
Position data, and the target position data is highlighted on the motion profile.
7. device according to claim 6, which is characterized in that the GIS server further includes and the electronic map pair
The geographical coordinate answered, the track generation module include:
Anchor point determines submodule, for according to the coordinate value, determination to be corresponding with the coordinate value in the geographical coordinate
Anchor point;
Anchor point marks submodule, is used for anchor point mark into prominent color, and/or, mark is at prominent shape;
Anchor point connects submodule, for the anchor point after mark to be in turn connected to form motion profile using line segment.
8. device according to claim 7, which is characterized in that the anchor point connects submodule further include:
Moment value extracting sub-module, for successively extracting the corresponding moment value of the anchor point;
Anchor point extracting sub-module, for extracting adjacent two-by-two the first anchor point and the second anchor point;
Time difference computational submodule, for calculating corresponding first moment value of first anchor point, with the secondth anchor point pair
The time difference between the second moment value answered;
Judging submodule, for judging whether the time difference is greater than preset interval time;
Submodule is described in solid line track, for connecting institute using solid line line segment when the interval time being greater than the preset time
State the first anchor point and second anchor point;
Dashed trace describes submodule, for connecting institute using dashed line segment when the interval time being less than the preset time
State the first anchor point and second anchor point.
9. device according to claim 6, which is characterized in that the data disaply moudle includes:
Coordinate value acquisition submodule, for when receiving the selection operation of designated position point, obtaining the designated position point
Coordinates of targets value;
Target data acquisition submodule is searched and the target in the position data for being directed to the coordinates of targets value
The corresponding target position data of coordinate value;
Display sub-module, for highlighting the target position data on the motion profile.
10. device according to claim 7, which is characterized in that the line segment is the line segment with direction signs, the side
It include arrow logo, finger mark to mark;Wherein, the direction of the direction signs is to be worth corresponding anchor point by previous moment
It is directed toward the direction that later moment in time is worth corresponding anchor point.
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CN110366113A (en) * | 2019-06-04 | 2019-10-22 | 视联动力信息技术股份有限公司 | Unmanned plane information displaying method and system |
CN110460366A (en) * | 2019-07-12 | 2019-11-15 | 视联动力信息技术股份有限公司 | A kind of Unmanned Aerial Vehicle Data interconnection method, system, electronic equipment and storage medium |
CN111125582A (en) * | 2019-12-16 | 2020-05-08 | 北京明略软件系统有限公司 | Information icon display method and device, electronic equipment and readable storage medium |
CN113408973A (en) * | 2020-03-17 | 2021-09-17 | 北京京东振世信息技术有限公司 | Method and device for generating track data |
CN114283223A (en) * | 2021-12-21 | 2022-04-05 | 深圳市智慧海洋科技有限公司 | Underwater equipment track display method and device, monitoring equipment and system |
CN114281455A (en) * | 2021-12-21 | 2022-04-05 | 深圳市智慧海洋科技有限公司 | Underwater positioning display method and device, monitoring equipment and system |
CN114344872A (en) * | 2021-12-31 | 2022-04-15 | 北京市商汤科技开发有限公司 | Curling track analysis method, device, equipment and storage medium |
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Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102128626A (en) * | 2010-01-13 | 2011-07-20 | 华为技术有限公司 | Track display method and system and map server |
CN103217697A (en) * | 2013-03-21 | 2013-07-24 | 广东欧珀移动通信有限公司 | Method and mobile terminal for recording moving path |
US20170099455A1 (en) * | 2015-10-05 | 2017-04-06 | Mutualink, Inc. | Video management defined embedded voice communication groups |
CN107993416A (en) * | 2016-10-26 | 2018-05-04 | 北京视联动力国际信息技术有限公司 | A kind for the treatment of method and apparatus of alert event |
CN108573011A (en) * | 2017-11-20 | 2018-09-25 | 北京视联动力国际信息技术有限公司 | A kind of displaying of terminal device and device |
-
2018
- 2018-11-28 CN CN201811437523.7A patent/CN109743672A/en active Pending
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102128626A (en) * | 2010-01-13 | 2011-07-20 | 华为技术有限公司 | Track display method and system and map server |
CN103217697A (en) * | 2013-03-21 | 2013-07-24 | 广东欧珀移动通信有限公司 | Method and mobile terminal for recording moving path |
US20170099455A1 (en) * | 2015-10-05 | 2017-04-06 | Mutualink, Inc. | Video management defined embedded voice communication groups |
CN107993416A (en) * | 2016-10-26 | 2018-05-04 | 北京视联动力国际信息技术有限公司 | A kind for the treatment of method and apparatus of alert event |
CN108573011A (en) * | 2017-11-20 | 2018-09-25 | 北京视联动力国际信息技术有限公司 | A kind of displaying of terminal device and device |
Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110366113A (en) * | 2019-06-04 | 2019-10-22 | 视联动力信息技术股份有限公司 | Unmanned plane information displaying method and system |
CN110460366A (en) * | 2019-07-12 | 2019-11-15 | 视联动力信息技术股份有限公司 | A kind of Unmanned Aerial Vehicle Data interconnection method, system, electronic equipment and storage medium |
CN111125582A (en) * | 2019-12-16 | 2020-05-08 | 北京明略软件系统有限公司 | Information icon display method and device, electronic equipment and readable storage medium |
CN113408973A (en) * | 2020-03-17 | 2021-09-17 | 北京京东振世信息技术有限公司 | Method and device for generating track data |
CN114283223A (en) * | 2021-12-21 | 2022-04-05 | 深圳市智慧海洋科技有限公司 | Underwater equipment track display method and device, monitoring equipment and system |
CN114281455A (en) * | 2021-12-21 | 2022-04-05 | 深圳市智慧海洋科技有限公司 | Underwater positioning display method and device, monitoring equipment and system |
CN114344872A (en) * | 2021-12-31 | 2022-04-15 | 北京市商汤科技开发有限公司 | Curling track analysis method, device, equipment and storage medium |
CN114344855A (en) * | 2021-12-31 | 2022-04-15 | 北京市商汤科技开发有限公司 | Motion control method, device, equipment and storage medium |
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