CN107368247A - Management method/system, computer-readable recording medium and the terminal of live project - Google Patents
Management method/system, computer-readable recording medium and the terminal of live project Download PDFInfo
- Publication number
- CN107368247A CN107368247A CN201710433682.9A CN201710433682A CN107368247A CN 107368247 A CN107368247 A CN 107368247A CN 201710433682 A CN201710433682 A CN 201710433682A CN 107368247 A CN107368247 A CN 107368247A
- Authority
- CN
- China
- Prior art keywords
- instruction
- observation
- buildings models
- visual angle
- live
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Classifications
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
- G06F3/0487—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser
- G06F3/0488—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser using a touch-screen or digitiser, e.g. input of commands through traced gestures
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06T—IMAGE DATA PROCESSING OR GENERATION, IN GENERAL
- G06T19/00—Manipulating 3D models or images for computer graphics
- G06T19/003—Navigation within 3D models or images
Abstract
The present invention provides a kind of method, system, computer-readable recording medium and the terminal of live project management, and the management method of the live project comprises the following steps:Store the BUILDINGS MODELS of the live project;Show the BUILDINGS MODELS;A measurement instruction is received, performing the measurement associated with the BUILDINGS MODELS according to the measurement instruction operates;Or a positioning instruction is received, the positioning action associated with the BUILDINGS MODELS is performed according to the positioning instruction;Or an observation instruction is received, performing the observation associated with the BUILDINGS MODELS according to the observation instruction operates.The present invention can bring construction manager sensation on the spot in person, and experience sense is more preferable, improve the efficiency of management of workmen, realize the paperless management of construction project.
Description
Technical field
The invention belongs to architectural engineering application management field, is related to a kind of management method and system, more particularly to one kind
Live project management method, system, computer-readable recording medium and electronic equipment.
Background technology
BIM (Building Information Modeling, i.e. BIM) is that (area of computer aided is set after CAD
Meter) appear in the another important Computer Applied Technology of engineering construction industry after technology, triggering history of building trade without
The thorough revolution of precedent.The technology utilizes digital modeling software, improves Project design, construction and the efficiency of management, and to use
The building enterprise of the technology brings great newly-increased value.
Design is improved using BIM platforms at present, avoids doing over again, analogue simulation, Optimizing Construction Scheme etc. is carried out with BIM
The relative maturity that technology has been applied.But for how using BIM to come the potential that accurate instruction construction carries out, not yet someone at the scene
Excavate.
The situation of site operation is at present, site operation personnel according to the arrangement and method for construction worked out in advance, with reference to national standard
Specification etc. carries out site operation, and then management carries out an acceptance inspection further according to national acceptance standard.The data such as substantial amounts of drawing, standard are all
Need to take scene to, to consult at any time.The architectural drawing of traditional live project can not bring construction manager body and face it
The sensation in border, experience sense are poor.
Therefore, a kind of live project management method, system and electronic equipment how are provided, to solve prior art due to passing
The architectural drawing of the live project of system can not bring construction manager sensation on the spot in person, the defects of experience sense difference, it is real with
As those skilled in the art's technical problem urgently to be resolved hurrily.
The content of the invention
In view of the above the shortcomings that prior art, it is an object of the invention to provide a kind of live project management method,
System and electronic equipment, for solving prior art because the architectural drawing of traditional live project can not bring construction management people
Member's sensation on the spot in person, the problem of experience sense difference.
In order to achieve the above objects and other related objects, one aspect of the present invention provides a kind of management method of live project,
The management method of the live project comprises the following steps:Store the BUILDINGS MODELS of the live project;Show the building mould
Type;A measurement instruction is received, performing the measurement associated with the BUILDINGS MODELS according to the measurement instruction operates;Or receive certain
Bit instruction, the positioning action associated with the BUILDINGS MODELS is performed according to the positioning instruction;Or an observation instruction is received, according to
The observation instruction performs the observation operation associated with the BUILDINGS MODELS.
In one embodiment of the invention, the measurement associated with the BUILDINGS MODELS is performed according to the measurement instruction and operated
A kind of implementation process include:The measurement instruction includes the first instruction of measurement distance between two points and measures distance between two articles
Second instruction;First instruction is received, 2 points of the coordinate that user is triggered is searched on the BUILDINGS MODELS, according to two
The coordinate of point calculates at the distance between 2 points;And according to BUILDINGS MODELS and the ratio of live project, calculate the reality between 2 points
Distance;Or second instruction is received, the two articles that user is triggered are searched on the BUILDINGS MODELS, calculate the several of two articles
What centre coordinate, the distance between two articles are calculated according to the Geometric center coordinates of two articles;And according to BUILDINGS MODELS and scene
The ratio of project, calculate the actual range between two articles.
In one embodiment of the invention, the positioning action associated with the BUILDINGS MODELS is performed according to the positioning instruction
A kind of implementation process include:Model orientation instruction is received, model orientation instruction is obtained and appears on the BUILDINGS MODELS
Regional location;Corresponding with the regional location two dimensional model and threedimensional model are included in an operation interface;The two dimension
Model instructs with model orientation described in threedimensional model coordination and response;Or a live positioning instruction is received, into live project picture
Trap mode;Searched on the BUILDINGS MODELS with catching the corresponding two dimensional model of live project picture obtained and three-dimensional mould
Type, and corresponding with the live project picture two dimensional model and threedimensional model are included in the operation interface;It is described fixed
Bit instruction includes model orientation instruction or/and the live positioning instruction.
In one embodiment of the invention, the observation instruction includes current visual angle amplification observation instruction, mobile visual angle is seen
Survey instruction, gravity sensing observation instruction, observation instruction through walls or/and return to initial visual angle observation instruction;Referred to according to the observation
A kind of implementation process that order performs the observation operation associated with the BUILDINGS MODELS includes:Described in being received on the BUILDINGS MODELS
When current visual angle amplifies observation instruction, obtain current visual angle amplification observation and instruct the position appeared on the BUILDINGS MODELS,
Amplify the position;When receiving the mobile visual angle observation instruction on the BUILDINGS MODELS, movement visual angle observation instruction is obtained
Mobile visual angle on the BUILDINGS MODELS, and position and direction corresponding to the real-time display movement visual angle;In the building mould
When the gravity sensing observation instruction is received in type, the shifting moved on the BUILDINGS MODELS with gravity is obtained by gravity sensing
Dynamic visual angle;The observation instruction through walls is received on a wall in the BUILDINGS MODELS, the wall is penetrated, shows in the wall
The threedimensional model in portion;Or the initial visual angle observation instruction of the return is received on the BUILDINGS MODELS, current visual angle is switched to
The default visual angle of original.
Another aspect of the present invention provides a kind of management system of live project, and the management system of the live project includes:
Memory module, for storing the BUILDINGS MODELS of the live project;Display module, for showing the BUILDINGS MODELS;Measurement behaviour
Make module, for receiving a measurement instruction, and the measurement associated with the BUILDINGS MODELS is performed according to the measurement instruction and operated;
Positioning action module, determine for receiving a positioning instruction, and according to positioning instruction execution is associated with the BUILDINGS MODELS
Bit manipulation;Operation module is observed, for the observation instruction of reception one, and it is related to the BUILDINGS MODELS according to the observation instruction execution
The observation operation of connection.
In one embodiment of the invention, the measurement instruction includes the first instruction and measurement two of measurement distance between two points
Second instruction of distance between object;The measurement operation module receives first instruction, searches and uses on the BUILDINGS MODELS
2 points of the coordinate that family is triggered, calculate at the distance between 2 points according to 2 points of coordinates;And according to BUILDINGS MODELS and live item
Purpose ratio, calculate the actual range between 2 points;Or the measurement operation module receives second instruction, in the building
The two articles that user is triggered are searched on model, calculate the Geometric center coordinates of two articles, are sat according to the geometric center of two articles
Mark calculates the distance between two articles;And according to BUILDINGS MODELS and the ratio of live project, calculate between two articles it is actual away from
From.
In one embodiment of the invention, the positioning action module receives model orientation instruction, obtains the model and determines
Bit instruction appears in the regional location on the BUILDINGS MODELS;Corresponding with the regional location two dimensional model and threedimensional model are shown
Show in an operation interface;The two dimensional model instructs with model orientation described in threedimensional model coordination and response;Or the positional operand
Make module and receive a live positioning instruction, into live project picture capture mode;Search and catch on the BUILDINGS MODELS
Two dimensional model and threedimensional model corresponding to the live project picture of acquisition, and will two-dimentional mould corresponding with the live project picture
Type and threedimensional model are shown in the operation interface;The positioning instruction include the model orientation instruct or/and it is described existing
Field positioning instruction.
In one embodiment of the invention, the observation instruction includes current visual angle amplification observation instruction, mobile visual angle is seen
Survey instruction, gravity sensing observation instruction, observation instruction through walls or/and return to initial visual angle observation instruction;The observation operation mould
Block obtains current visual angle amplification observation and instructed out when receiving the current visual angle amplification observation instruction on the BUILDINGS MODELS
Position on the present BUILDINGS MODELS, amplifies the position;Described in the observation operation module receives on the BUILDINGS MODELS
During mobile visual angle observation instruction, mobile visual angle of the movement visual angle observation instruction on the BUILDINGS MODELS is obtained, and show in real time
Show position and direction corresponding to the movement visual angle;The observation operation module receives the gravity sensing on the BUILDINGS MODELS
During observation instruction, the mobile visual angle moved on the BUILDINGS MODELS with gravity is obtained by gravity sensing;The observation operation
Module receives the observation instruction through walls on the wall in the BUILDINGS MODELS, penetrate the wall, show inside the wall
Threedimensional model;, will or the observation operation module receives the initial visual angle observation instruction of the return on the BUILDINGS MODELS
View angle switch to original presets visual angle.
Another aspect of the present invention also provides a kind of computer-readable recording medium, is stored thereon with computer program, the journey
The management method of the live project is realized when sequence is executed by processor.
Last aspect of the present invention provides a kind of terminal, including:Processor and memory;The memory is based on storing
Calculation machine program, the processor are used for the computer program for performing the memory storage, so that described in terminal execution
The management method of live project
As described above, management method, system, computer-readable recording medium and the terminal of the live project of the present invention, tool
There is following beneficial effect:
Management method, system, computer-readable recording medium and the terminal of live project of the present invention can be brought
Construction manager sensation on the spot in person, experience sense is more preferable, improves the efficiency of management of workmen, realizes construction project
Paperless management.
Brief description of the drawings
Fig. 1 is shown as schematic flow sheet of the management method of the live project of the present invention in an embodiment.
Fig. 2A is shown as the schematic flow sheet of S41 in the management method of the live project of the present invention.
Fig. 2 B are shown as the schematic flow sheet of S42 in the management method of the live project of the present invention.
Fig. 2 C are shown as the schematic flow sheet of S42 in the management method of the live project of the present invention.
Fig. 3 is shown as theory structure schematic diagram of the management system of the live project of the present invention in an embodiment.
Component label instructions
The management system of 3 live projects
31 memory modules
32 lightweight modules
33 display modules
34 measurement operation modules
35 positioning action modules
36 observation operation modules
S1~S43 steps
Embodiment
Illustrate embodiments of the present invention below by way of specific instantiation, those skilled in the art can be by this specification
Disclosed content understands other advantages and effect of the present invention easily.The present invention can also pass through specific realities different in addition
The mode of applying is embodied or practiced, the various details in this specification can also be based on different viewpoints with application, without departing from
Various modifications or alterations are carried out under the spirit of the present invention.It should be noted that in the case where not conflicting, following examples and implementation
Feature in example can be mutually combined.
It should be noted that the diagram provided in following examples only illustrates the basic structure of the present invention in a schematic way
Think, only show the component relevant with the present invention in schema then rather than according to component count, shape and the size during actual implement
Draw, kenel, quantity and the ratio of each component can be a kind of random change during its actual implementation, and its assembly layout kenel
It is likely more complexity.
Embodiment one
The present embodiment provides a kind of management method of live project, and the management method of the live project includes following step
Suddenly:
Store the BUILDINGS MODELS of the live project;
Show the BUILDINGS MODELS;
A measurement instruction is received, performing the measurement associated with the BUILDINGS MODELS according to the measurement instruction operates;Or
A positioning instruction is received, the positioning action associated with the BUILDINGS MODELS is performed according to the positioning instruction;Or
An observation instruction is received, performing the observation associated with the BUILDINGS MODELS according to the observation instruction operates.
The management method of the live project provided below with reference to diagram the present embodiment is described in detail.This implementation
The live project management method that example is provided is applied on electronic equipment.In the implementation of reality, the electronic equipment example
It is such as smart mobile phone, tablet personal computer, the electronic equipment with touch display screen.The present embodiment electronic equipment is using flat board electricity
Brain.
Wherein, the touch display screen provides output interface and input interface simultaneously between equipment and user.Touch aobvious
The electric signal of touch display screen is gone in display screen controller reception/transmission from/.The touch display screen then shows visual defeated to user
Go out.This visual output can include text, figure, video and its any combination.Some or all visual outputs can be with user
Interface object is corresponding, and hereinafter its more details will be described.
Touch display screen receives the input of user also based on tactile and/or tactile contact.The touch display screen forms one
The individual touch sensitive surface for receiving user's input.The touch display screen and touch display screen controller are (together with any in memory
Associated module and/or instruction set are together) detection touch display screen on contact (and the touch any movement or in
It is disconnected), and by the contact transformation detected into including such as one or more soft-key buttons in touch display screen etc
The interaction of user interface object.In one exemplary embodiment, the contact point between touch display screen and user, which corresponds to, uses
One or more fingers at family.The touch display screen can use LCD (liquid crystal display) technologies or LPD, and (light emitting polymer shows
Show device) technology, but other Display Techniques can be used in other embodiments.Touch display screen and touch display screen controller can be with
Included but is not limited to using any one of a variety of Touch technologies to detect contact and its mobile or interruption, these Touch technologies
Electric capacity, resistance, infrared and surface acoustic wave techniques, and other proximity sensor arrays, or for determining and touch display screen phase
The other technologies of the one or more points of contact.User can use any appropriate object or accessory, such as instruction pen, finger etc.
Deng to contact touch display screen.
Described contact/motion module detects the contact with touch display screen together with touch display screen controller.Should
Contact/motion module includes being used for the various software groups for performing the associated various operations of the detection of the contact with touch display screen
Part, the operation for example, determine whether to be in contact, and determine whether the contact moves, and the shifting in tracking touch display screen
It is dynamic, and determine whether the contact is interrupted (whether stopping contacting).Determine that the operation of contact point movement can include determining that to connect
Speed (amplitude), speed (amplitude and direction) and/or the acceleration (including amplitude and/or direction) of contact.In some embodiments
In, contact/motion module also detects the contact on touch pad with touch display screen controller.
Referring to Fig. 1, it is shown as schematic flow sheet of the management method of live project in an embodiment.As shown in figure 1,
The management method of the live project specifically includes following steps:
S1, store the BUILDINGS MODELS of the live project.The BUILDINGS MODELS is various for emulating based on including
The dependent vector architectural drawing of the live construction project, the architecture information of component, component name, physical dimension, material, again
Amount, color, three-dimensional localization information under construction, progress msg, the place transported to or even cost information etc. model file are imitated
The 3D models really obtained.
S2, the BUILDINGS MODELS of the live project stored is subjected to light-weight technologg, to extract the BUILDINGS MODELS
Key point, form simplified BUILDINGS MODELS;After the electronic equipment enters live model of project management, described in after simplification
BUILDINGS MODELS is shown in the operation interface.Light-weighted technology has a variety of at present, and representative has JT and 3DXML two
Kind.3DXML is the Lightweight Technology of the propositions such as Dassault, Microsoft, and JT is that JT opens the Lightweight Technology that tissue proposes.
S3, show the BUILDINGS MODELS after lightweight.
S41, measurement instruction is received, and according to the measurement instruction, perform the measurement operation associated with the BUILDINGS MODELS.
The measurement instruction includes the first instruction of measurement distance between two points and measures the second instruction of distance between two articles.In this implementation
In example, in the first presumptive area set-point of the operation interface apart from component and/or object distance component, the point is apart from group
Part is used for the interface for providing the first instruction for receiving the measurement distance between two points, and the object distance component is used to provide measurement
The interface of second instruction of distance between two articles.Fig. 2A is referred to, is shown as S31 schematic flow sheet.As shown in Figure 2 A, it is described
S31 includes following steps:
S411, the first instruction of measurement distance between two points is received by the point apart from component, and is sensed and built described
When building the touch action on model continuously to touch at 2,2 points of coordinate is searched on the BUILDINGS MODELS, according to 2 points
Coordinate calculates at the distance between 2 points, and according to BUILDINGS MODELS and the ratio of live project, calculates the actual range between 2 points.
For example, when sensing in touch action of the touch action on the BUILDINGS MODELS for two point A and B of continuous touch, point and point
Between the associated scheduled measurement function of icon of distance refer to and will touch two point A and B and be mapped in the BUILDINGS MODELS, reflected with obtaining
The mapping point A1 and B1 penetrated on the BUILDINGS MODELS, A1 and B1 modal distance, last basis are calculated using Euclidean distance
The ratio of BUILDINGS MODELS and live project, it is the continuous reality for touching two point A and B to calculate the touch action on the BUILDINGS MODELS
Border distance, the actual range are measurement result.Or
S412, the second instruction of distance between measurement two articles is received by the object distance component, is sensed described
When touch action on BUILDINGS MODELS is continuous touch two articles, two articles are searched respectively on the BUILDINGS MODELS, calculate two
The Geometric center coordinates of object, according to the Geometric center coordinates of two articles, calculate the distance between two articles;And according to building mould
The ratio of type and live project, calculate the actual range between two articles.For example, on the BUILDINGS MODELS touch component C1 and
Component D1, two articles are searched respectively on the BUILDINGS MODELS, calculate the centre coordinate of the component C1 and the component D1
Geometric center coordinates C2 and D2, it is to be calculated to after Geometric center coordinates, C2 and D2 modal distance is calculated using Euclidean distance, most
Afterwards according to BUILDINGS MODELS and the ratio of live project, the touch action calculated on the BUILDINGS MODELS touches component C1 to be continuous
With component D1 actual range, the actual range is measurement result.Or
S42, positioning instruction is received, according to the positioning instruction, perform the positioning action associated with the BUILDINGS MODELS.
In the present embodiment, the positioning instruction includes model orientation instruction and/or live positioning instruction.Fig. 2 B and 2C are referred to, respectively
It is shown as S32 schematic flow sheet.As shown in Figure 2 B, the S32 specifically includes following steps:
S421, model orientation instruction is received, obtain the model orientation and instruct the region appeared on the BUILDINGS MODELS
Position.In the present embodiment, by providing modal position positioning component, the modal position positioning component on the BUILDINGS MODELS
The interface of the model orientation instruction is received for providing.For example, pass through the modal position at 2 buildings on the BUILDINGS MODELS
Positioning component receives model orientation instruction, and it is 2 to obtain the location name according to the model orientation instruction received at 2 buildings
Building.In the present embodiment, on the basis of story height, carry out redirecting positioning.For example, per a height of layer by layer 3 meters, positioning instruction appearance
2 buildings on the BUILDINGS MODELS, then 2 multiply 36 meters, from Stall rise 6 meters after just a key reach 2 buildings.
S422, according to the regional location, corresponding with the regional location two dimensional model and threedimensional model are included with behaviour
Make on interface;Model orientation described in two dimensional model and the threedimensional model coordination and response instructs.For example, receive mould at 2 buildings
Type positioning instruction, according to modal position coordinate, the two dimensional model and threedimensional model of 2 buildings are fed back in the operation interface.At this
In embodiment, user can also be navigated to according to the key of modal position positioning instruction one on two dimensional model to be arrived the position reached
Put.For example, user enters the two dimensional model of 3 buildings, on two dimensional model output need to reach the lift port instruction of 3 buildings, pass through three-dimensional
The real time correlation of model and two dimensional model, jump directly to up to 3 buildings lift ports.
As shown in Figure 2 C, the S42 specifically includes following steps:
S421 ', live positioning instruction is received, into live project picture capture mode.In the present embodiment, by institute
State and live positioning component is provided on BUILDINGS MODELS, the live positioning component, which is used to provide, receives connecing for the live positioning instruction
Mouthful.
S422 ', according to the live project picture caught, searched on the BUILDINGS MODELS with catching the live item obtained
Two dimensional model and threedimensional model corresponding to mesh picture, and will corresponding with the live project picture two dimensional model and threedimensional model
It is shown in the operation interface.For example, the 6#2F construction areas of the construction manager at the scene, catch 6#2F construction areas
Live project picture, searched according to the live project picture of 6#2F construction areas on the BUILDINGS MODELS corresponding with 6#2F construction areas
Threedimensional model, and the threedimensional models of 6#2F construction areas is fed back in the operation interface, that is, the 6#2F jumped in building
In construction area.
S43, observation instruction is received, instructed according to the observation, perform the observation operation associated with the BUILDINGS MODELS.
In the present embodiment, the observation instruction includes current visual angle amplification observation instruction, mobile visual angle observation instruction, gravity sensing observation
Instruction, observation through walls instruct and returned initial visual angle observation instruction.In the present embodiment, offer is provided on the BUILDINGS MODELS
Current visual angle amplification observation component, mobile visual angle observation component, gravity sensing are observed component, observation component through walls and returned initial
Visual angle observation component receives current visual angle amplification observation instruction, the observation instruction of mobile visual angle, gravity sensing observation instruction, worn respectively
Wall observation instructs and returned initial visual angle observation instruction.The S33 includes:
When receiving the current visual angle amplification observation instruction on the BUILDINGS MODELS, current visual angle amplification observation is obtained
Instruction appears in position on the BUILDINGS MODELS, amplifies the position.
When receiving the mobile visual angle observation instruction on the BUILDINGS MODELS, movement visual angle observation instruction is obtained in institute
State the mobile visual angle on BUILDINGS MODELS, and position and direction corresponding to the real-time display movement visual angle.
When receiving gravity sensing observation instruction on the BUILDINGS MODELS, by gravity sensing on the BUILDINGS MODELS,
Obtain at the mobile visual angle that the BUILDINGS MODELS moves with gravity.
The observation instruction through walls is received on a wall in the BUILDINGS MODELS, the wall is penetrated, shows the wall
Internal threedimensional model.
When reception on the BUILDINGS MODELS receives the initial visual angle observation of the return and instructed, current visual angle is switched into original
Default visual angle.
Live project management method described in the present embodiment can bring construction manager sensation on the spot in person, experience
Sense is more preferable, improves the efficiency of management of workmen, realizes the paperless management of construction project.
Embodiment two
The present embodiment provides a kind of management system of live project, and the management system of the live project includes:
Memory module, for storing the BUILDINGS MODELS of the live project;
Display module, for showing the BUILDINGS MODELS;
Operation module is measured, is performed and the BUILDINGS MODELS phase for receiving a measurement instruction, and according to the measurement instruction
The measurement operation of association;
Positioning action module, performed and the BUILDINGS MODELS phase for receiving a positioning instruction, and according to the positioning instruction
The positioning action of association;
Operation module is observed, is performed and the BUILDINGS MODELS phase for receiving an observation instruction, and according to the observation instruction
The observation operation of association.
The management system of the live project described in the present embodiment is described in detail below with reference to diagram.The present embodiment
The management system of described live project is operated on an electronic equipment.Referring to Fig. 3, it is shown as the management system of live project
Theory structure schematic diagram in an embodiment.As shown in figure 3, the live project management system 3 includes memory module 31, light
Quantization modules 32, display module 33, measurement operation module 34, positioning action module 35 and observation operation module 36.
The memory module 31 is used for the BUILDINGS MODELS for storing the live project.The BUILDINGS MODELS is to be based on including respectively
Kind is used for dependent vector architectural drawing, architecture information, component name, the dimensioning of component for emulating the live construction project
Very little, material, weight, color, three-dimensional localization information under construction, progress msg, the place even cost information etc. transported to
The 3D models that model file emulation obtains.
The lightweight module 32 being connected with the memory module 31 is used to enter the BUILDINGS MODELS of the live project stored
Row light-weight technologg, to extract the key point of the BUILDINGS MODELS, form simplified BUILDINGS MODELS.With the lightweight module
The display module 36 of 32 connections is used for after the electronic equipment enters live model of project management, and the BUILDINGS MODELS is shown in
In the operation interface.In the present embodiment, live model of project management is entered by verifying username and password.
The display module 33 being connected with the lightweight module 32 is used for after showing lightweight in the operation interface
BUILDINGS MODELS.
The measurement operation module 34 being connected with the display module 33 is used to receive measurement instruction, is referred to according to the measurement
Order, perform the measurement operation associated with the BUILDINGS MODELS.
Specifically, the measurement operation module 34 receives the first finger of measurement distance between two points by the point apart from component
Order, and sense when the touch action on the BUILDINGS MODELS is continuously touches at 2, search two on the BUILDINGS MODELS
The coordinate of point, calculate at the distance between 2 points according to 2 points of coordinates, and according to BUILDINGS MODELS and the ratio of live project, calculate
Actual range between 2 points.For example, touch two point A and B when sensing the touch action on the BUILDINGS MODELS to be continuous
Touch action when, the associated scheduled measurement function of icon of putting the distance between point refers to and will touch two point A and B and be mapped in institute
BUILDINGS MODELS is stated, to obtain the mapping point A1 and B1 that are mapped on the BUILDINGS MODELS, A1 and B1 is calculated using Euclidean distance
Modal distance, finally according to BUILDINGS MODELS and the ratio of live project, the touch action calculated on the BUILDINGS MODELS is
The continuous actual range for touching two point A and B, the actual range is measurement result.Or
The measurement operation module 34 receives the second instruction of distance between measurement two articles by the object distance component,
Sense when the touch action on the BUILDINGS MODELS is continuously touches two articles, two are searched respectively on the BUILDINGS MODELS
Object, the Geometric center coordinates of two articles are calculated, according to the Geometric center coordinates of two articles, calculate the distance between two articles;
And according to BUILDINGS MODELS and the ratio of live project, calculate the actual range between two articles.For example, on the BUILDINGS MODELS
Touch component C1 and component D1, search two articles respectively on the BUILDINGS MODELS, calculate the component C1 centre coordinate and
The Geometric center coordinates C2 and D2 of the component D1, it is to be calculated to after Geometric center coordinates, utilize Euclidean distance to calculate C2 and D2
Modal distance, finally according to BUILDINGS MODELS and the ratio of live project, the touch action calculated on the BUILDINGS MODELS is
The continuous actual range for touching component C1 and component D1, the actual range is measurement result.
The positioning action module 35 being connected with the display module 33 is used to receive positioning instruction, is referred to according to the positioning
Order, perform the positioning action associated with the BUILDINGS MODELS.In the present embodiment, the positioning instruction instructs including model orientation
With live positioning instruction.
The positioning action module 34 is used to receive model orientation instruction, obtain model orientation instruction appear in it is described
Regional location on BUILDINGS MODELS;According to the regional location, corresponding with the regional location two dimensional model and threedimensional model are shown
Show on operation interface;Model orientation described in two dimensional model and the threedimensional model coordination and response instructs.In the present embodiment,
By providing modal position positioning component on the BUILDINGS MODELS, the modal position positioning component, which is used to provide, receives the mould
The interface of type positioning instruction.For example, model orientation instruction is received at 2 buildings, according to modal position coordinate, in operation circle
The two dimensional model and threedimensional model of 2 buildings is fed back on face.In the present embodiment, can also be determined on two dimensional model according to modal position
The key of bit instruction one navigates to the position of user's arrival.For example, user enters the two dimensional model of 3 buildings, on two dimensional model
Output need to reach the lift port instruction of 3 buildings, by threedimensional model and the real time correlation of two dimensional model, jump directly to up to 3 buildings electricity
Ladder way.
The positioning action module 35 is additionally operable to receive live positioning instruction, into live project picture capture mode;Root
According to the live project picture caught, two dimension corresponding with the live project picture for catching acquisition is searched on the BUILDINGS MODELS
Model and threedimensional model, and corresponding with the live project picture two dimensional model and threedimensional model are included in operation circle
On face.In the present embodiment, by providing live positioning component on the BUILDINGS MODELS, the live positioning component is used to provide
Receive the interface of the live positioning instruction.For example, the 6#2F construction areas of the construction manager at the scene, catch 6#2F and apply
The live project picture in work area, searched on the BUILDINGS MODELS according to the live project picture of 6#2F construction areas and constructed with 6#2F
Threedimensional model corresponding to area, and the threedimensional model of 6#2F construction areas is fed back in the operation interface, that is, jump in building
6#2F construction areas in.
The observation operation module 36 being connected with the display module 33 is used to receive observation instruction, and is referred to according to the observation
Order, perform the observation operation associated with the BUILDINGS MODELS.In the present embodiment, the observation instruction includes current visual angle amplification
Observation is instructed, instruction is observed at mobile visual angle, gravity sensing observation instructs, observation through walls instructs and returned initial visual angle observation and refers to
Order.In the present embodiment, by providing current visual angle amplification observation component, mobile visual angle observation group on the BUILDINGS MODELS
Part, gravity sensing observation component, observation component through walls and the initial visual angle observation component of return receive current visual angle amplification and seen respectively
Survey instruction, mobile visual angle observation instruction, gravity sensing observation instruction, observation instruction through walls and return to initial visual angle observation instruction.
The observation operation module 36 is used for when receiving the current visual angle amplification observation instruction on the BUILDINGS MODELS,
Obtain current visual angle amplification observation instruction and appear in position on the BUILDINGS MODELS, amplify the position.
The observation operation module 36 is used to, when receiving the mobile visual angle observation instruction on the BUILDINGS MODELS, obtain
The movement visual angle mobile visual angle of the observation instruction on the BUILDINGS MODELS, and position corresponding to the real-time display movement visual angle and
Direction.
The observation operation module 36 is used to, when receiving gravity sensing observation instruction on the BUILDINGS MODELS, build described
Build on model by gravity sensing, obtain at the mobile visual angle that the BUILDINGS MODELS moves with gravity.
The observation instruction through walls is received on the wall that the observation operation module 36 is used in the BUILDINGS MODELS,
The wall is penetrated, shows the threedimensional model inside the wall.Or
The observation operation module 36 is used for the initial visual angle observation of the reception reception return on the BUILDINGS MODELS and referred to
When making, current visual angle is switched into former default visual angle.
Embodiment three
The present embodiment provides a kind of computer-readable recording medium, is stored thereon with computer program, it is characterised in that should
The management approach of the live project is realized when program is executed by processor.One of ordinary skill in the art will appreciate that:
Realizing all or part of step of above-mentioned each method embodiment can be completed by the related hardware of computer program.Foregoing
Computer program can be stored in a computer-readable recording medium.Upon execution, execution includes above-mentioned each method to the program
The step of embodiment;And foregoing storage medium includes:ROM, RAM, magnetic disc or CD etc. are various can be with store program codes
Medium.
Example IV
The present embodiment provides a kind of terminal, including:Processor, memory, transceiver, communication interface and system bus;Deposit
Reservoir and communication interface are connected with processor and transceiver by system bus and complete mutual communication, and memory is used to deposit
Computer program is stored up, communication interface is used for and other equipment is communicated, and processor and transceiver are used to run computer program,
Terminal performs each step of the management method of live project as described above.
System bus mentioned above can be Peripheral Component Interconnect standard
(PeripheralPomponentInterconnect, abbreviation PCI) bus or EISA
(ExtendedIndustryStandardArchitecture, abbreviation EISA) bus etc..The system bus can be divided into address
Bus, data/address bus, controlling bus etc..For ease of representing, only represented in figure with a thick line, it is not intended that only one total
Line or a type of bus.Communication interface is used for accessing data base device and other equipment (such as client, read-write storehouse
And read-only storehouse) between communication.Memory may include random access memory (RandomAccessMemory, abbreviation RAM),
Nonvolatile memory (non-volatilememory), for example, at least a magnetic disk storage may also also be included.
Above-mentioned processor can be general processor, including central processing unit (CentralProcessingUnit, letter
Claim CPU), network processing unit (NetworkProcessor, abbreviation NP) etc.;It can also be digital signal processor
(DigitalSignalProcessing, abbreviation DSP), application specific integrated circuit
(ApplicationSpecificIntegratedCircuit, abbreviation ASIC), field programmable gate array (Field-
ProgrammableGateArray, abbreviation FPGA) either other PLDs, discrete gate or transistor logic device
Part, discrete hardware components.
In summary, management method, system, computer-readable recording medium and the terminal of live project of the present invention
It can bring construction manager sensation on the spot in person, experience sense is more preferable, improves the efficiency of management of workmen, realizes
The paperless management of construction project.So the present invention effectively overcomes various shortcoming of the prior art and has high industrial profit
With value.
The above-described embodiments merely illustrate the principles and effects of the present invention, not for the limitation present invention.It is any ripe
Know the personage of this technology all can carry out modifications and changes under the spirit and scope without prejudice to the present invention to above-described embodiment.Cause
This, those of ordinary skill in the art is complete without departing from disclosed spirit and institute under technological thought such as
Into all equivalent modifications or change, should by the present invention claim be covered.
Claims (10)
1. a kind of management method of live project, it is characterised in that the management method of the live project comprises the following steps:
Store the BUILDINGS MODELS of the live project;
Show the BUILDINGS MODELS;
A measurement instruction is received, performing the measurement associated with the BUILDINGS MODELS according to the measurement instruction operates;Or
A positioning instruction is received, the positioning action associated with the BUILDINGS MODELS is performed according to the positioning instruction;Or
An observation instruction is received, performing the observation associated with the BUILDINGS MODELS according to the observation instruction operates.
2. the management method of live project according to claim 1, it is characterised in that:According to the measurement instruction perform with
A kind of implementation process of the associated measurement operation of the BUILDINGS MODELS includes:
The measurement instruction includes the first instruction of measurement distance between two points and measures the second instruction of distance between two articles;
First instruction is received, 2 points of the coordinate that user is triggered is searched on the BUILDINGS MODELS, according to 2 points of seat
Mark calculates at the distance between 2 points;And according to BUILDINGS MODELS and the ratio of live project, calculate the actual range between 2 points;
Or
Second instruction is received, the two articles that user is triggered are searched on the BUILDINGS MODELS, calculate the geometry of two articles
Centre coordinate, the distance between two articles are calculated according to the Geometric center coordinates of two articles;And according to BUILDINGS MODELS and live item
Purpose ratio, calculate the actual range between two articles.
3. the management method of live project according to claim 1, it is characterised in that:According to the positioning instruction perform with
A kind of implementation process of the associated positioning action of the BUILDINGS MODELS includes:
Model orientation instruction is received, the model orientation is obtained and instructs the regional location appeared on the BUILDINGS MODELS;
Corresponding with the regional location two dimensional model and threedimensional model are included in an operation interface;The two dimensional model and three
Model orientation described in dimension module coordination and response instructs;Or
A live positioning instruction is received, into live project picture capture mode;
Corresponding with the live project picture for catching acquisition two dimensional model and threedimensional model are searched on the BUILDINGS MODELS, and will
Corresponding with the live project picture two dimensional model and threedimensional model are shown in the operation interface;
The positioning instruction includes model orientation instruction or/and the live positioning instruction.
4. the management method of live project according to claim 1, it is characterised in that:The observation instruction includes working as forward sight
Angle amplification observation is instructed, instruction is observed at mobile visual angle, gravity sensing observation instructs, observation through walls is instructed or/and returned and initially regards
Angle observation instructs;A kind of implementation process bag of the observation operation associated with the BUILDINGS MODELS is performed according to the observation instruction
Include:
When receiving the current visual angle amplification observation instruction on the BUILDINGS MODELS, current visual angle amplification observation instruction is obtained
The position on the BUILDINGS MODELS is appeared in, amplifies the position;
When receiving the mobile visual angle observation instruction on the BUILDINGS MODELS, obtain movement visual angle observation instruction and built described
Build the mobile visual angle on model, and position and direction corresponding to the real-time display movement visual angle;
When receiving the gravity sensing observation instruction on the BUILDINGS MODELS, obtained by gravity sensing in the BUILDINGS MODELS
On with gravity move mobile visual angle;
The observation instruction through walls is received on a wall in the BUILDINGS MODELS, the wall is penetrated, shows inside the wall
Threedimensional model;Or
The initial visual angle observation instruction of the return is received on the BUILDINGS MODELS, current visual angle is switched into former default visual angle.
5. a kind of management system of live project, it is characterised in that the management system of the live project includes:
Memory module, for storing the BUILDINGS MODELS of the live project;
Display module, for showing the BUILDINGS MODELS;
Operation module is measured, for receiving a measurement instruction, and it is associated with the BUILDINGS MODELS according to measurement instruction execution
Measurement operation;
Positioning action module, for receiving a positioning instruction, and it is associated with the BUILDINGS MODELS according to positioning instruction execution
Positioning action;
Operation module is observed, for the observation instruction of reception one, and it is associated with the BUILDINGS MODELS according to the observation instruction execution
Observation operation.
6. the management system of live project according to claim 5, it is characterised in that:The measurement instruction includes measurement two
The first of distance instructs and measured the second instruction of distance between two articles between point;The measurement operation module receives described first and referred to
Order, 2 points of coordinate being triggered of user is searched on the BUILDINGS MODELS, according to 2 points of coordinates calculate between 2 points away from
From;And according to BUILDINGS MODELS and the ratio of live project, calculate the actual range between 2 points;Or the measurement operation module connects
Second instruction is received, the two articles that user is triggered are searched on the BUILDINGS MODELS, the geometric center for calculating two articles is sat
Mark, the distance between two articles are calculated according to the Geometric center coordinates of two articles;And according to BUILDINGS MODELS and the ratio of live project
Example, calculate the actual range between two articles.
7. the management system of live project according to claim 5, it is characterised in that:
The positioning action module receives model orientation instruction, obtains model orientation instruction and appears on the BUILDINGS MODELS
Regional location;Corresponding with the regional location two dimensional model and threedimensional model are included in an operation interface;The two dimension
Model instructs with model orientation described in threedimensional model coordination and response;Or
The positioning action module receives a live positioning instruction, into live project picture capture mode;In the building mould
Corresponding with the live project picture for catching acquisition two dimensional model and threedimensional model are searched in type, and will be with the live project figure
Two dimensional model corresponding to piece and threedimensional model are shown in the operation interface;
The positioning instruction includes model orientation instruction or/and the live positioning instruction.
8. the management system of live project according to claim 5, it is characterised in that:
The observation instruction includes current visual angle amplification observation instruction, the observation instruction of mobile visual angle, gravity sensing observation are instructed, worn
Wall observation instructs or/and returned initial visual angle observation instruction;
It is current to obtain this when receiving the current visual angle amplification observation instruction on the BUILDINGS MODELS for the observation operation module
Visual angle amplification observation instruction appears in the position on the BUILDINGS MODELS, amplifies the position;
The observation operation module obtains the movement visual angle when receiving the mobile visual angle observation instruction on the BUILDINGS MODELS
Mobile visual angle of the observation instruction on the BUILDINGS MODELS, and position and direction corresponding to the real-time display movement visual angle;
The observation operation module is obtained when receiving the gravity sensing observation instruction on the BUILDINGS MODELS by gravity sensing
Take the mobile visual angle moved on the BUILDINGS MODELS with gravity;
The observation operation module receives the observation instruction through walls on the wall in the BUILDINGS MODELS, penetrate the wall
Body, show the threedimensional model inside the wall;Or
The observation operation module receives the initial visual angle observation instruction of the return on the BUILDINGS MODELS, by view angle switch extremely
The default visual angle of original.
9. a kind of computer-readable recording medium, is stored thereon with computer program, it is characterised in that the program is held by processor
The management method of live project any one of Claims 1-4 is realized during row.
A kind of 10. terminal, it is characterised in that including:Processor and memory;
The memory is used to store computer program, and the processor is used for the computer journey for performing the memory storage
Sequence,
So that the terminal performs the management method of the live project as any one of Claims 1-4.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201710433682.9A CN107368247B (en) | 2017-06-09 | 2017-06-09 | Method/system for managing field project, computer readable storage medium and terminal |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201710433682.9A CN107368247B (en) | 2017-06-09 | 2017-06-09 | Method/system for managing field project, computer readable storage medium and terminal |
Publications (2)
Publication Number | Publication Date |
---|---|
CN107368247A true CN107368247A (en) | 2017-11-21 |
CN107368247B CN107368247B (en) | 2020-12-29 |
Family
ID=60305239
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201710433682.9A Active CN107368247B (en) | 2017-06-09 | 2017-06-09 | Method/system for managing field project, computer readable storage medium and terminal |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN107368247B (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111158763A (en) * | 2019-12-06 | 2020-05-15 | 思创数码科技股份有限公司 | Equipment instruction processing system for building intelligent management and control |
Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20140135986A1 (en) * | 2012-11-14 | 2014-05-15 | Fanuc America Corporation | Teaching point program selection method for robot simulator |
CN104183016A (en) * | 2014-09-05 | 2014-12-03 | 山东省国土测绘院 | Method for rapidly constructing 2.5-dimensional building model |
CN105005949A (en) * | 2015-07-31 | 2015-10-28 | 山东工商学院 | Underground pipeline field virtual survey system |
CN105929393A (en) * | 2016-04-22 | 2016-09-07 | 湖南镭氪信息科技有限公司 | Large artificial building three-dimensional deformation radar measurement method and measurement device |
CN106157359A (en) * | 2015-04-23 | 2016-11-23 | 中国科学院宁波材料技术与工程研究所 | A kind of method for designing of virtual scene experiencing system |
CN106529452A (en) * | 2016-11-04 | 2017-03-22 | 重庆市勘测院 | Mobile intelligent terminal building rapid identification method based on building three-dimensional model |
-
2017
- 2017-06-09 CN CN201710433682.9A patent/CN107368247B/en active Active
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20140135986A1 (en) * | 2012-11-14 | 2014-05-15 | Fanuc America Corporation | Teaching point program selection method for robot simulator |
CN104183016A (en) * | 2014-09-05 | 2014-12-03 | 山东省国土测绘院 | Method for rapidly constructing 2.5-dimensional building model |
CN106157359A (en) * | 2015-04-23 | 2016-11-23 | 中国科学院宁波材料技术与工程研究所 | A kind of method for designing of virtual scene experiencing system |
CN105005949A (en) * | 2015-07-31 | 2015-10-28 | 山东工商学院 | Underground pipeline field virtual survey system |
CN105929393A (en) * | 2016-04-22 | 2016-09-07 | 湖南镭氪信息科技有限公司 | Large artificial building three-dimensional deformation radar measurement method and measurement device |
CN106529452A (en) * | 2016-11-04 | 2017-03-22 | 重庆市勘测院 | Mobile intelligent terminal building rapid identification method based on building three-dimensional model |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111158763A (en) * | 2019-12-06 | 2020-05-15 | 思创数码科技股份有限公司 | Equipment instruction processing system for building intelligent management and control |
CN111158763B (en) * | 2019-12-06 | 2023-08-18 | 思创数码科技股份有限公司 | Equipment instruction processing system for intelligent management and control of building |
Also Published As
Publication number | Publication date |
---|---|
CN107368247B (en) | 2020-12-29 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN107169673A (en) | Management system/method, computer-readable recording medium and the terminal of construction project | |
CN103261997B (en) | Apparatus and method for user input for controlling displayed information | |
CN107358401A (en) | Intelligent management system/method, readable storage medium storing program for executing and the terminal of construction project | |
CN107688342B (en) | The obstruction-avoiding control system and method for robot | |
CN105659295B (en) | For indicating the method for point of interest in the view of true environment on the mobile apparatus and for the mobile device of the method | |
Chacko et al. | An augmented reality interface for human-robot interaction in unconstrained environments | |
US20140362084A1 (en) | Information processing device, authoring method, and program | |
JP5807686B2 (en) | Image processing apparatus, image processing method, and program | |
CN109313502B (en) | Tap event location using selection device | |
CN103365411A (en) | Information input apparatus, information input method, and computer program | |
CN103733229A (en) | Information processing device, information processing method, and program | |
CN101393497A (en) | Multi-point touch method based on binocular stereo vision | |
CN103064514A (en) | Method for achieving space menu in immersive virtual reality system | |
CN104969148A (en) | Depth-based user interface gesture control | |
TW201346640A (en) | Image processing device, and computer program product | |
CN107038455A (en) | A kind of image processing method and device | |
CN106104434A (en) | Touch panel device is used to determine user's handedness and orientation | |
WO2012032515A1 (en) | Device and method for controlling the behavior of virtual objects on a display | |
CN102890558A (en) | Method for detecting handheld motion state of mobile handheld device based on sensor | |
CN105103112A (en) | Apparatus and method for manipulating the orientation of object on display device | |
CN106445118A (en) | Virtual reality interaction method and apparatus | |
US20210287330A1 (en) | Information processing system, method of information processing, and program | |
KR20200145698A (en) | Method and terminal unit for providing 3d assembling puzzle based on augmented reality | |
TW201518957A (en) | System and method for simulating 3D measurement | |
CN103558957B (en) | A kind of method and device of mobile terminal screen operation |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PB01 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
GR01 | Patent grant | ||
GR01 | Patent grant |