WO2019242057A1 - 远程全景看房方法、装置、用户终端、服务器及存储介质 - Google Patents

远程全景看房方法、装置、用户终端、服务器及存储介质 Download PDF

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Publication number
WO2019242057A1
WO2019242057A1 PCT/CN2018/095882 CN2018095882W WO2019242057A1 WO 2019242057 A1 WO2019242057 A1 WO 2019242057A1 CN 2018095882 W CN2018095882 W CN 2018095882W WO 2019242057 A1 WO2019242057 A1 WO 2019242057A1
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WO
WIPO (PCT)
Prior art keywords
data
panorama
display interface
resource
panoramic
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PCT/CN2018/095882
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English (en)
French (fr)
Inventor
洪嘉超
李鹏翔
肖德川
肖豪隽
Original Assignee
厦门市超游网络科技股份有限公司
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Publication of WO2019242057A1 publication Critical patent/WO2019242057A1/zh

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Classifications

    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q30/00Commerce
    • G06Q30/06Buying, selling or leasing transactions
    • G06Q30/0645Rental transactions; Leasing transactions
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01CMEASURING DISTANCES, LEVELS OR BEARINGS; SURVEYING; NAVIGATION; GYROSCOPIC INSTRUMENTS; PHOTOGRAMMETRY OR VIDEOGRAMMETRY
    • G01C11/00Photogrammetry or videogrammetry, e.g. stereogrammetry; Photographic surveying
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01SRADIO DIRECTION-FINDING; RADIO NAVIGATION; DETERMINING DISTANCE OR VELOCITY BY USE OF RADIO WAVES; LOCATING OR PRESENCE-DETECTING BY USE OF THE REFLECTION OR RERADIATION OF RADIO WAVES; ANALOGOUS ARRANGEMENTS USING OTHER WAVES
    • G01S19/00Satellite radio beacon positioning systems; Determining position, velocity or attitude using signals transmitted by such systems
    • G01S19/01Satellite radio beacon positioning systems transmitting time-stamped messages, e.g. GPS [Global Positioning System], GLONASS [Global Orbiting Navigation Satellite System] or GALILEO
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q50/00Information and communication technology [ICT] specially adapted for implementation of business processes of specific business sectors, e.g. utilities or tourism
    • G06Q50/10Services
    • G06Q50/16Real estate

Definitions

  • the present invention relates to the field of Internet technologies, and in particular, to a method, device, user terminal, server, and storage medium for remote panoramic house viewing.
  • Renting affects the vital interests of users. For renting users, how to obtain accurate and real renting information and realize safe and fast renting is their primary consideration.
  • the current network display method of the renting platform is mainly based on the introduction of the real estate text, supplemented by a simple picture of the room type or a shot video or produced flash.
  • the above method can let the renting user have a preliminary understanding of the listing to a certain extent, but this can only allow the user to make a preliminary determination as to whether they need to go to the site to check the listing. After passing the preliminary understanding, the user still needs to go to the site to check the specific situation of the listing and fully understand the real situation of the listing. This may cause the user to run multiple scenes to find a satisfactory listing. And a waste of energy. In particular, if the user is temporarily out of the city where the destination listing is located, this problem is even more prominent.
  • a method, device, user terminal, server, and storage medium for remote panoramic house viewing provided by embodiments of the present invention can achieve remote, panoramic, and accurate house viewing, greatly facilitating both parties and improving the user's house viewing experience. .
  • An embodiment of the present invention provides a remote panoramic house viewing method, including the following steps:
  • the first resource data includes first three-dimensional satellite map data
  • the second display interface includes the first three-dimensional satellite map and eligible conditions distributed on the first three-dimensional satellite map Community identification
  • the second resource data includes The second three-dimensional satellite map data corresponding to the community identification and the three-dimensional block model data obtained through aerial photography;
  • the third display interface includes a second three-dimensional satellite map generated according to the second three-dimensional satellite map data, and the three-dimensional Aerial 3D street model generated on the second 3D satellite map generated by the block model data and the panoramic entrance of the community;
  • a community panorama request instruction sent to the server is generated to obtain third resource data returned by the server based on the community panorama request instruction; wherein the first The three resource data include the panorama data of the community and the data of the available houses in the community;
  • an indoor panorama request instruction sent to the server is generated, so that the server returns fourth resource data according to the indoor panorama request instruction ;
  • the fourth resource data includes indoor panorama data of the first house;
  • Rendering is performed according to the fourth resource data to generate a fifth display interface for a user to view a room; wherein the fifth display interface includes an indoor panorama of the first house generated according to the indoor panorama data.
  • An embodiment of the present invention further provides a remote panoramic house viewing device, including:
  • a first resource requesting unit configured to initiate a first resource request to a server to obtain first resource data returned by the server based on the first resource request;
  • the first resource data includes first three-dimensional satellite map data;
  • a first rendering unit configured to perform rendering according to the first three-dimensional satellite map data to generate a first display interface; wherein the first display interface includes a first three-dimensional satellite map;
  • An operation detection unit configured to detect a selection operation performed by a user based on the first three-dimensional satellite map, and generate a selection instruction sent to the server according to the selection operation, so that the server returns according to the selection instruction and meets the requirements Cell distribution data for selecting operating conditions;
  • a second rendering unit configured to render according to the first three-dimensional satellite map data and the cell distribution data to generate a second display interface;
  • the second display interface includes the first three-dimensional satellite map and is distributed on the first Qualified cell identifications on a three-dimensional satellite map;
  • a selection detection unit configured to detect a cell identifier selected by a user based on the second display interface, and initiate a second resource request to the server to obtain second resource data returned by the server based on the second resource request;
  • the second resource data includes second three-dimensional satellite map data corresponding to the community identification and three-dimensional block model data through aerial photography;
  • a third rendering unit configured to perform rendering according to the second resource data to generate a third display interface; wherein the third display interface includes a second three-dimensional satellite map generated according to the second three-dimensional satellite map data, and An aerial 3D street model generated on the second 3D satellite map generated from the 3D street model data obtained through aerial photography and a panoramic entrance to the community;
  • a cell panorama request unit configured to generate a cell panorama request instruction sent to the server when it is detected that a user clicks on the cell panorama entrance, so as to obtain a third message returned by the server based on the cell panorama request instruction Resource data; wherein the third resource data includes data of a cell panorama and data of available houses in the cell for viewing;
  • a fourth rendering unit configured to perform rendering according to the third resource data to generate a fourth display interface; wherein the fourth display interface includes a community panorama and an indoor panoramic entrance of a house available for viewing in the community;
  • An indoor panorama request unit is configured to generate an indoor panorama request instruction sent to a server when a user clicks an operation of an indoor panorama entrance of a first house available for viewing, so that the server performs an indoor panorama request according to the indoor panorama.
  • the figure request instruction returns fourth resource data, wherein the fourth resource data includes indoor panorama data of the first house;
  • a fifth rendering unit configured to perform rendering according to the fourth resource data to generate a fifth display interface for a user to view a room; wherein the fifth display interface includes a first listing generated according to the indoor panorama data Interior panorama.
  • An embodiment of the present invention further provides a remote panoramic house viewing method, including the following steps:
  • the user terminal Receiving a first resource request sent by a user terminal, and returning corresponding first resource data to the user terminal, so that the user terminal renders according to the first resource to generate a first display interface; the first resource data Including the first three-dimensional satellite map data; the first display interface includes the first three-dimensional satellite map;
  • the selection instruction is generated by a selection operation performed by a user based on the first three-dimensional satellite map; the second display interface includes a first three-dimensional satellite map and eligible cell identifiers distributed on the first three-dimensional satellite map;
  • the second resource data Including the second three-dimensional satellite map data corresponding to the community identifier and the three-dimensional street model data obtained through aerial photography;
  • the third display interface includes a second three-dimensional satellite map generated according to the second three-dimensional satellite map data, and obtained according to aerial photography Aerial three-dimensional block models generated on the second three-dimensional satellite map generated from the three-dimensional block model data and panoramic entrances to the community;
  • the third resource includes data of a community panorama and data of available houses in the community;
  • the fourth display interface includes the community panorama and an indoor panoramic entrance of the houses in the community that can be viewed;
  • the four resource data include the indoor panorama data of the first house; the fifth display interface includes the indoor panorama of the first house generated according to the indoor panorama data.
  • An embodiment of the present invention further provides a user terminal, including a processor, a memory, and a computer program stored in the memory and configured to be executed by the process.
  • a user terminal including a processor, a memory, and a computer program stored in the memory and configured to be executed by the process.
  • the processor executes the computer program, Realize the remote panoramic house viewing method as described above.
  • An embodiment of the present invention further provides a server, including a processor, a memory, and a computer program stored in the memory and configured to be executed by the process.
  • a server including a processor, a memory, and a computer program stored in the memory and configured to be executed by the process.
  • the processor executes the computer program, the remote control as described above is implemented. Panoramic viewing method.
  • An embodiment of the present invention further provides a computer-readable storage medium, where the computer-readable storage medium includes a stored computer program, wherein when the computer program runs, the device where the computer-readable storage medium is located is controlled to execute as described above. Remote panoramic viewing method.
  • the user can access the server through the user terminal to remotely view the listing.
  • the user can view the three-dimensional block map, community panorama and indoor panorama of the block where the listing is located, so that the user can Fully understand the real situation inside and outside the listing. You don't need to go to the site to learn about the listing on site. It avoids the time and energy waste caused by users and landlords traveling back and forth, and realizes remote, panoramic and accurate viewing.
  • FIG. 1 is a schematic flowchart of a remote panoramic house viewing method according to a first embodiment of the present invention.
  • FIG. 2 is a schematic diagram of a first display interface provided by the first embodiment of the present invention.
  • FIG. 3 is a schematic diagram of a second display interface provided by the first embodiment of the present invention.
  • FIG. 4 is another schematic diagram of a second display interface provided by the first embodiment of the present invention.
  • FIG. 5 is a schematic diagram of a third display interface provided by the first embodiment of the present invention.
  • FIG. 6 is another schematic diagram of a second display interface provided by the first embodiment of the present invention.
  • FIG. 7 is a schematic diagram of a bird's-eye panoramic view provided by a first embodiment of the present invention.
  • FIG. 8 is a schematic diagram of a cell ground panorama provided by the first embodiment of the present invention.
  • FIG. 9 is a schematic diagram of an indoor panorama provided by the first embodiment of the present invention.
  • FIG. 10 is a schematic flowchart of a remote panoramic house viewing method according to a second embodiment of the present invention.
  • FIG. 11 is a schematic flowchart of a remote panoramic house viewing device according to a third embodiment of the present invention.
  • a first embodiment of the present invention provides a remote panoramic house viewing method, which can be executed by a user terminal and includes the following steps:
  • S101 Initiate a first resource request to a server to obtain first resource data returned by the server based on the first resource request; the first resource data includes first three-dimensional satellite map data.
  • the user terminal may be a desktop computer, a notebook computer, a tablet, a smart phone, smart glasses, or the like.
  • the network structure mode of the user terminal and the server may be a B / S structure (Browser / Server, browser / server mode), or a C / S structure (Client / Server, client / server mode). ).
  • the network structure mode of the user terminal and the server is a B / S structure
  • the user can access the server through a browser installed on the user terminal. Specifically, the user can access the server through Enter the corresponding URL on your browser to access the server.
  • the user terminal may initiate a first resource request to the server, and after receiving the first resource request, the server may request a preset three-dimensional satellite map The corresponding first three-dimensional satellite map data is searched in the database and sent to the user terminal.
  • the first three-dimensional satellite map data sent may be three-dimensional satellite map data of a city selected by the user or a city in which the user is registered, depending on the user selection.
  • the first three-dimensional satellite map data may be provided by a third-party map company.
  • the first three-dimensional satellite map data is three-dimensional satellite map data of a distant view.
  • the first display interface includes a first three-dimensional satellite map.
  • the first display interface shown may be as shown in FIG. 2.
  • S103 Acquire a selection operation performed by the user based on the first three-dimensional satellite map, and generate a selection instruction sent to the server according to the selection operation, so that the server returns a condition that meets the selection operation according to the selection instruction.
  • Cell distribution data Acquire a selection operation performed by the user based on the first three-dimensional satellite map, and generate a selection instruction sent to the server according to the selection operation, so that the server returns a condition that meets the selection operation according to the selection instruction.
  • S104 Render according to the first three-dimensional satellite map data and the cell distribution data to generate a second display interface.
  • the second display interface includes the first three-dimensional satellite map and the first three-dimensional satellite map distributed on the first three-dimensional satellite map. Eligible cell ID.
  • the user may perform a selection operation based on the first three-dimensional satellite map to obtain a house or a community that meets the conditions.
  • a user may select a custom position point on the first three-dimensional satellite map (the point where the working position is set in FIG. 3).
  • the user The terminal generates a selection instruction according to the selection operation, and sends the selection instruction to the server, where the selection instruction includes location information of a custom location point selected by a user.
  • the server After receiving the selection instruction, the server searches for a cell distribution data of a cell located near the custom location point in a database, and sends the cell distribution data to the user terminal.
  • the user terminal renders according to the received cell distribution data, and superimposes a layer corresponding to the cell distribution data on a layer of the first three-dimensional satellite map, so that Qualified cell identification on the Internet (such as identification 10 in Figure 3).
  • the identifier may also display the number of available listings in the community at the same time.
  • the display window of the browser further includes a condition search bar, and the user can enter search conditions based on the condition search bar, such as area, type, apartment type, rent range, and the like.
  • the user terminal After receiving the search condition input by the user, the user terminal generates a corresponding selection instruction and sends the selection instruction to the server.
  • the server After receiving the selection instruction, the server searches the database for the search condition that meets the search condition. Cell distribution data of a cell, and sending the cell distribution data to the user terminal.
  • the user terminal renders according to the received cell distribution data, and superimposes a layer corresponding to the cell distribution data on a layer of the first three-dimensional satellite map, so that Eligible cell identification on.
  • S105 Detect a user's cell identifier selected based on the second display interface, and initiate a second resource request to the server to obtain second resource data returned by the server based on the second resource request; the second resource
  • the data includes second three-dimensional satellite map data corresponding to the community identification and three-dimensional block model data obtained through aerial photography.
  • the third display interface includes a second three-dimensional satellite map generated according to the second three-dimensional satellite map data, and all information obtained through aerial photography.
  • the three-dimensional aerial model and the panoramic entrance of the community generated on the second three-dimensional satellite map generated from the three-dimensional neighborhood model data are described.
  • a three-dimensional block map of the block where the cell is located can be viewed.
  • the three-dimensional block map is generated by superimposing the block's three-dimensional satellite map data (which can be provided by a third-party map company) and the three-dimensional block model data of the block obtained through aerial photography.
  • the three-dimensional block model data can be obtained by aerial photography. For example, first a real-time acquisition of the block through a drone (for example, through a matrix scanning image acquisition). After acquiring a clear real-world image of the block, The method of real picture modeling is used to establish a three-dimensional model of all the objects in the block, thereby obtaining three-dimensional block model data.
  • the position mapping relationship between the second 3D satellite map and the aerial 3D block model is set in advance on the server. In this way, when loading, the superimposed display of the second three-dimensional satellite map and the aerial three-dimensional street model can be realized through the position mapping relationship.
  • the user can clearly and intuitively understand the real environment of the neighborhood where the community is located.
  • a panoramic entrance of a cell is also provided on the third display interface for a user to view a panoramic view of the cell.
  • a community panorama request instruction sent to the server is generated to obtain third resource data returned by the server based on the community panorama request instruction;
  • the third resource data includes data of a community panorama and data of available houses in the community.
  • S108 Perform rendering according to the third resource data to generate a fourth display interface.
  • the fourth display interface includes a panorama of the residential area and an indoor panoramic entrance of a house available for viewing in the residential area.
  • the cell panorama data includes aerial bird's-eye panorama data and cell ground panorama data.
  • the user terminal After receiving the bird's-eye view panorama data and the cell's ground panorama data, the user terminal renders and displays the bird's-eye panoramic view (as shown in FIG. 7) or the cell ground panorama (as shown in FIG. 8) by default.
  • the fourth display interface has at least one of the following: in addition to the bird's-eye view panorama, a three-dimensional satellite map entrance, a bird's-eye view information, a cell density, a house orientation pointer, a road entrance distribution in the cell, Ground floor panoramic entrance, three-dimensional block entrance, information of available houses for viewing, information on greening of the neighborhood, etc.
  • the fourth display interface has at least one of the following: a three-dimensional satellite map entrance, a three-dimensional street entrance, a community aerial panorama entrance, and a ground panoramic entrance at different locations of the community, etc. .
  • the user can also call up a list of all available listings in the neighborhood, and each listing in the list can include a brief description of the listing and an indoor panoramic entrance to the listing.
  • S110 Perform rendering according to the fourth resource data to generate a fifth display interface for a user to view a room.
  • the fifth display interface includes an indoor panorama of the first house generated according to the indoor panorama data.
  • the user can view the indoor panorama of the corresponding house by clicking the indoor panorama entrance of the corresponding house.
  • the community panorama and the indoor panorama may be 720-degree indoor panoramas
  • the 720-degree panorama may be generated by the following method: using an image acquisition with seven cameras The device acquires images at various positions from seven angles, and then combines the acquired images to generate a 720-degree panoramic image, thereby achieving rapid composition of the panoramic image.
  • the indoor panorama includes a panorama of multiple sub-regions of the first house, and the panorama of each sub-region includes other The entrance of the sub-region to realize the display switching of the panorama of different sub-regions.
  • the first listing includes a living room, a bedroom, a kitchen, and a toilet
  • the living room is connected to the bedroom and the kitchen
  • the toilet is connected to the kitchen
  • the panorama of the living room includes the entrance of the bedroom and the kitchen
  • the panorama of the bedroom The picture includes the entrance to the living room
  • the panoramic view of the kitchen includes the entrance to the toilet and living room. The user can click these entrances to switch the display of the panorama of each sub-room.
  • the indoor panorama includes a panorama of multiple sub-areas of the first house and a thumbnail of the first house, and the thumbnail includes the first house All sub-rooms of a house, so click the sub-room to enter the corresponding sub-room panorama.
  • the thumbnail is set at the upper right of the indoor panorama, and its specific structure is consistent with the actual structure of the first listing. The user can click the corresponding sub-room to view the panorama of the sub-area.
  • the indoor panorama further includes at least one interactive hotspot; wherein the interactive hotspot is associated with multimedia resources for interaction;
  • the remote panoramic house viewing method further includes:
  • the interactive hotspot is set at a corresponding position in the panorama of the first listing.
  • the interactive hotspot can be set at the location of the TV in the living room.
  • the multimedia corresponding to the interactive hotspot can be played.
  • Resources such as a video.
  • an interactive hotspot can also be set at the location of the album.
  • multimedia resources such as a set of album pictures
  • the hotspot may also be associated with a website or an external link, so that when a user triggers a hotspot, it jumps to a webpage corresponding to the website or an external link.
  • the specific items related to the hotspot can be set according to actual needs, which is not specifically limited in the present invention.
  • the browser may render a three-dimensional model based on WebGL. Specifically, through Three.js technology, the model is rendered on a web page, and three-dimensional visualization operations can be performed.
  • Three.js technology the model is rendered on a web page, and three-dimensional visualization operations can be performed.
  • OpenGL or other 3D drawing protocols may also be used, and the present invention does not specifically limit them.
  • HTML page controls and special effects can be added through JS scripts to add interactive behaviors.
  • the panoramic data of each part may be encrypted and optimized. Encryption is achieved by fragmenting the panoramic image, while optimization is achieved through multi-layer thumbnail loading technology to improve the efficiency of image loading.
  • the multi-view switching control is also supported under the panoramic display.
  • the multi-view includes asteroid view, fish-eye view, distance view, etc.
  • each of the foregoing display interfaces may be displayed on the user terminal in the form of a webpage, or may be performed on the user terminal in the form of loading by a client (such as an APP or a software client). Show, but not limited to this. It is also within the protection scope of the present invention to display the display interface through other media.
  • the display interface can also be displayed by means of ordinary projection, holographic projection, projection screen, or virtual reality (MR).
  • the user can access the server through the user terminal to remotely view the listing.
  • the user can view the three-dimensional block map, community panorama and indoor panorama of the block where the listing is located, so that the user can fully Understand the real situation inside and outside the listing. You do n’t need to go to the site to learn about the listing. This avoids the time and energy waste caused by users and landlords traveling back and forth, and realizes remote, panoramic and accurate viewing.
  • the second resource data further includes data of surrounding facilities corresponding to the selected cell identifier;
  • the third display interface further includes a surrounding facility classification list;
  • the remote panoramic house viewing method further includes:
  • the surrounding facilities include at least one of the following: transportation facilities, medical facilities, entertainment facilities, living facilities, and public facilities.
  • the neighborhood or neighborhood of the neighborhood is also one of the key considerations for renters. For example, renters will consider whether the surrounding facilities are complete, whether the public transport system is convenient, and whether living and entertainment facilities are complete.
  • the second resource data further includes data of peripheral facilities corresponding to the selected cell identifier; and the third display interface further includes a peripheral facility classification list (as shown in FIG. 5).
  • the user can click the classification indicator to display the corresponding surrounding facilities. For example, if a user wants to find a bus facility, he can click on the category identifier “Station” in the category list, and the user terminal can mark the corresponding bus facility (such as a subway station or a bus station) on the third display interface. When the user clicks the category identifier again, the annotation disappears.
  • the classification identifiers in the classification list may also include supermarkets, schools, hospitals, entertainment, etc. This may be adjusted according to actual needs, and the present invention does not specifically limit them.
  • the indoor panoramic view further includes an entrance for payment of intention payment and an entrance for electronic contract signing;
  • the user terminal sends an intent gold payment instruction to the server, and the server returns the intent gold payment interface for the user to make a payment (payment can be made through electronic banking, Alipay, and WeChat payment).
  • the server After the server confirms that the user has completed the payment of the intent money, the first listing is locked within a predetermined intent time (such as 10 days), that is, all panoramic entrances of the first listing are closed, so that other users cannot browse the first listing.
  • a predetermined intent time such as 10 days
  • the user terminal sends an electronic contract signing instruction to the server.
  • the server returns a pre-created electronic contract for the user to fill in personal information and confirm.
  • the electronic contract can be signed and rent (Similarly, payment can be made through electronic banking, Alipay, WeChat payment), the server closes all panoramic entrances of the first listing within the predetermined contract period after confirming that the electronic contract is valid, so other users cannot browse The first listing.
  • the payment of intention money and the signing of electronic contracts require users to be real-name authenticated users.
  • the server will ask the user to provide real name authentication information, such as the user's real name and ID information.
  • the user After the user fills in the real-name authentication information through the user terminal, the user sends the real-name authentication information to the server, and the server verifies the real-name authentication information. If the verification succeeds, the user is grouped into a real-name authentication user.
  • a VR viewing mode may also be provided.
  • the forward vector is used to detect the center of the viewpoint, and the hotspot is triggered or switched according to the detected viewpoint center.
  • a user may put a mobile phone in a mobile phone glasses box and start a VR viewing mode, and then the server returns corresponding VR resources (including community panoramic resources and indoor panoramic resources), and the mobile terminal renders the VR resources. And display VR images, so that users can more closely understand the situation of the community and housing.
  • the VR viewing mode it also supports the viewpoint center to switch through the forwardvector detection hotspot to achieve an immersive viewing experience.
  • a second embodiment of the present invention provides a remote panoramic room viewing method, which is processed from a server perspective and includes the following steps:
  • S201 Receive a first resource request sent by a user terminal, and return corresponding first resource data to the user terminal, so that the user terminal renders according to the first resource to generate a first display interface;
  • the first The resource data includes first three-dimensional satellite map data;
  • the first display interface includes a first three-dimensional satellite map;
  • S202 Receive a selection instruction sent by a user terminal, and return corresponding cell distribution data to the user terminal, so that the user terminal renders according to the first three-dimensional satellite map data and the cell distribution data to generate a second display interface;
  • the selection instruction is generated by a selection operation performed by a user based on the first three-dimensional satellite map;
  • the second display interface includes a first three-dimensional satellite map and eligible cell identifiers distributed on the first three-dimensional satellite map ;
  • S203 Receive a second resource request sent by a user terminal, and return corresponding second resource data to the user terminal, so that the user terminal renders according to the second resource data to generate a third display interface; the second display interface;
  • the resource data includes second three-dimensional satellite map data corresponding to the community identifier and three-dimensional street model data obtained through aerial photography;
  • the third display interface includes a second three-dimensional satellite map generated according to the second three-dimensional satellite map data, The aerial 3D street model generated on the second 3D satellite map generated from the 3D street model data obtained by aerial photography and the panoramic entrance of the community;
  • S204 Receive a cell panorama request instruction sent by a user terminal, and return third resource data to the user terminal, so that the user terminal renders according to the third resource data to generate a fourth display interface.
  • the three resource data include data of a community panorama and data of available houses in the community;
  • the fourth display interface includes a panorama of the community and an indoor panoramic entrance of the houses in the community that can be viewed;
  • S205 Receive the indoor panorama request instruction sent by the user terminal, and return the fourth resource data to the user terminal, so that the user terminal renders according to the fourth resource data to generate a fifth display interface for the user to view the room;
  • the fourth resource data includes indoor panorama data of the first house;
  • the fifth display interface includes indoor panorama of the first house generated according to the indoor panorama data.
  • the server stores various resource data, including three-dimensional satellite map data, indoor panorama data of each house, panorama data of each district, and three-dimensional block model data of each block obtained by aerial photography.
  • the server receives a data request from the user terminal, it sends corresponding data to the user terminal for rendering and display according to the data request.
  • the server constructs a response message and sends it back to the user terminal.
  • the server sends the resource address to the php parser, parses the php program file, sends the content back to httpd after parsing, and httpd constructs a response message and sends it back to the user terminal.
  • the server loads and distributes the data through the CDN node to achieve synchronous update.
  • the model in the data is uploaded to the JSON data after topology optimization processing, which can reduce the number of faces of the model and speed up the loading speed .
  • a third embodiment of the present invention further provides a remote panoramic room viewing device, including:
  • a first resource requesting unit 310 is configured to initiate a first resource request to a server to obtain first resource data returned by the server based on the first resource request; the first resource data includes first three-dimensional satellite map data;
  • a first rendering unit 320 configured to perform rendering according to the first three-dimensional satellite map data to generate a first display interface; wherein the first display interface includes a first three-dimensional satellite map;
  • An operation detecting unit 330 is configured to detect a selection operation performed by a user based on the first three-dimensional satellite map, and generate a selection instruction sent to the server according to the selection operation, so that the server returns a response to the selection instruction according to the selection instruction.
  • a second rendering unit 340 is configured to perform rendering according to the first three-dimensional satellite map data and the cell distribution data to generate a second display interface.
  • the second display interface includes the first three-dimensional satellite map and is distributed in the first Qualifying cell identification on a three-dimensional satellite map;
  • a selection detection unit 350 configured to detect a cell identifier selected by a user based on the second display interface, and initiate a second resource request to the server to obtain second resource data returned by the server based on the second resource request;
  • the second resource data includes second three-dimensional satellite map data corresponding to a cell identifier and three-dimensional block model data obtained through aerial photography;
  • a third rendering unit 360 is configured to perform rendering according to the second resource data to generate a third display interface; wherein the third display interface includes a second three-dimensional satellite map generated according to the second three-dimensional satellite map data, An aerial photographed three-dimensional neighborhood model generated on the second three-dimensional satellite map generated according to the three-dimensional neighborhood model data obtained through aerial photography and a panoramic entrance to the community;
  • the cell panorama request unit 370 is configured to generate a cell panorama request instruction sent to the server when it is detected that the user clicks on the cell panorama entrance, so as to obtain a first number returned by the server based on the cell panorama request instruction.
  • a fourth rendering unit 380 is configured to perform rendering according to the third resource data to generate a fourth display interface; wherein the fourth display interface includes a panorama of the community and an indoor panoramic entrance of the house available for viewing in the community ;
  • the indoor panorama request unit 390 is configured to generate an indoor panorama request instruction sent to a server when a user clicks an indoor panorama entrance of a first house available for viewing, so that the server is configured according to the indoor
  • the panorama request instruction returns fourth resource data, wherein the fourth resource data includes indoor panorama data of the first house;
  • a fifth rendering unit 391 is configured to perform rendering according to the fourth resource data to generate a fifth display interface for a user to view the room; wherein the fifth display interface includes a first room generated according to the indoor panorama data Source of indoor panorama.
  • the selecting operation is to set a custom location point on the first three-dimensional satellite map; then the cell distribution data is data of a cell located within a predetermined range of the custom location point; or
  • the selection operation is to input a search condition on a condition search interface; then the cell distribution data is data of a cell that meets the search condition.
  • the three-dimensional street model data is obtained by real-world image collection by a drone, and real-world image modeling is performed on the collected real-world image.
  • the second resource data further includes data of surrounding facilities corresponding to the selected cell identifier;
  • the third display interface further includes a surrounding facility classification list;
  • An identifier display unit is configured to read data of peripheral facilities corresponding to the classification identifier when a user clicks on the classification identifier in the peripheral facility classification list, and display the corresponding peripheral facilities on the third display interface.
  • Identification where the surrounding facilities include at least one of the following: transportation facilities, medical facilities, entertainment facilities, living facilities, public facilities.
  • the indoor panorama includes panoramas of a plurality of sub-areas of the first house, wherein the panorama of each sub-area includes entrances of other sub-areas connected to it, so as to realize the panorama of different sub-areas. Display switching; and / or
  • the indoor panorama includes a panorama of multiple sub-regions of the first listing and thumbnails of the first listing, and the thumbnails include all sub-regions that make up the first listing, so that by clicking The sub-room enters the panoramic view of the corresponding sub-room.
  • the indoor panorama further includes at least one interactive hotspot; wherein the interactive hotspot is associated with multimedia resources for interaction;
  • the hotspot trigger detection unit is configured to play a multimedia resource corresponding to the interactive hotspot when it is detected that the interactive hotspot is triggered.
  • the cell panorama data includes bird's-eye bird's-eye panorama data and cell ground's panorama data;
  • the fourth rendering unit is specifically configured to:
  • the interface of the residential bird's-eye panoramic view has at least one of the following : 3D satellite map entrance, community bird's-eye view information, community density, house orientation pointer, community road entrance distribution, community ground panoramic entrance, 3D block entrance, panoramic entrance of available houses for viewing; the interface of the community ground panorama at least It has one of the following: 3D satellite map entrance, 3D block entrance, and bird's eye panoramic entrance.
  • the indoor panoramic view further includes an entrance for paying an intention payment and an entrance for signing an electronic contract;
  • the forward vector is used to detect the center of the viewpoint, and the hotspot is triggered or switched according to the detected viewpoint center.
  • a fourth embodiment of the present invention provides a user terminal including a processor, a memory, and a computer program stored in the memory and configured to be executed by the process.
  • the processor executes the computer program, the processor is implemented as described in the first embodiment.
  • the remote panoramic house viewing method according to an embodiment.
  • a fifth embodiment of the present invention provides a server, including a processor, a memory, and a computer program stored in the memory and configured to be executed by the process.
  • the processor executes the computer program, the processor is implemented as the second embodiment.
  • the remote panoramic house viewing method according to the embodiment.
  • a sixth embodiment of the present invention provides a computer-readable storage medium, where the computer-readable storage medium includes a stored computer program. Wherein, when the computer program runs, the device where the computer-readable storage medium is located is controlled to execute the remote panoramic house viewing method described in the first embodiment.
  • the computer programs described in the sixth and seventh embodiments of the present invention may be divided into one or more modules, the one or more modules are stored in the memory, and The processor executes to complete the present invention.
  • the one or more modules may be a series of computer program instruction segments capable of performing specific functions, and the instruction segments are used to describe an execution process of the computer program in the warp knitted fabric defect fusion filtering detection device.
  • the device described in the second embodiment of the present invention may be divided into one or more modules, the one or more modules are stored in the memory, and The processor executes to complete the present invention.
  • the one or more modules may be a series of computer program instruction segments capable of performing specific functions, and the instruction segments are used to describe an execution process of the computer program in the warp knitted fabric defect fusion filtering detection device.
  • the device described in the second embodiment of the present invention may be a series of computer program instruction segments capable of performing specific functions, and the instruction segments are used to describe an execution process of the computer program in the warp knitted fabric defect fusion filtering detection device
  • the so-called processor may be a Central Processing Unit (CPU), or other general-purpose processors, digital signal processors (DSPs), application specific integrated circuits (ASICs), ready-made 1. programmable gate array Gate Array (FPGA) or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components, etc.
  • the general-purpose processor may be a microprocessor or the processor may be any conventional processor, etc.
  • the processor is a control center of the warp knitted fabric defect fusion filtering detection method, and uses various interfaces and lines to connect the entire Describe the various parts of the warp knitted fabric defect fusion filtering detection method.
  • the memory may be used to store the computer program and / or module, and the processor implements the Internet of Things-based operation by running or executing the computer program and / or module stored in the memory and calling data stored in the memory.
  • the memory may mainly include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program required for at least one function (such as a sound playback function, a text conversion function, etc.), etc .; the storage data area may store Data (such as audio data, text message data, etc.) created based on the use of the phone.
  • the memory may include a high-speed random access memory, and may also include a non-volatile memory, such as a hard disk, an internal memory, a plug-in hard disk, a smart media card (SMC), and a secure digital (SD) card.
  • a non-volatile memory such as a hard disk, an internal memory, a plug-in hard disk, a smart media card (SMC), and a secure digital (SD) card.
  • Flash card at least one disk storage device, flash memory device, or other volatile solid-state storage device.
  • the implemented modules may be stored in a computer-readable storage medium if they are implemented in the form of software functional units and sold or used as independent products. Based on such an understanding, the present invention implements all or part of the processes in the method of the foregoing embodiment, and may also be completed by a computer program instructing related hardware.
  • the computer program may be stored in a computer-readable storage medium.
  • the computer When the program is executed by a processor, the steps of the foregoing method embodiments can be implemented.
  • the computer program includes computer program code, and the computer program code may be in a source code form, an object code form, an executable file, or some intermediate form.
  • the computer-readable medium may include: any entity or device capable of carrying the computer program code, a recording medium, a U disk, a mobile hard disk, a magnetic disk, an optical disk, a computer memory, a read-only memory (ROM, Read-Only Memory), random access memory (RAM, Random Access Memory), electric carrier signals, telecommunication signals, and software distribution media.
  • ROM Read-Only Memory
  • RAM Random Access Memory
  • electric carrier signals telecommunication signals
  • software distribution media any entity or device capable of carrying the computer program code
  • a recording medium a U disk, a mobile hard disk, a magnetic disk, an optical disk, a computer memory, a read-only memory (ROM, Read-Only Memory), random access memory (RAM, Random Access Memory), electric carrier signals, telecommunication signals, and software distribution media.
  • the device embodiments described above are only schematic, and the units described as separate components may or may not be physically separated, and the components displayed as units may or may not be physical Units, which can be located in one place or distributed across multiple network units. Some or all of the modules may be selected according to actual needs to achieve the objective of the solution of this embodiment.
  • the connection relationship between the modules indicates that there is a communication connection between them, which may be specifically implemented as one or more communication buses or signal lines.

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Abstract

本发明公开了一种远程全景看房方法、装置、用户终端、服务器及存储介质,方法包括:向服务器发起第一资源请求,获取第一资源数据,生成第一显示界面;获取选择操作,生成发送至服务器的选择指令,以接收小区分布数据进行渲染,生成基于航拍获得的第二显示界面;检测选择的小区标识,向服务器发起第二资源请求,以获取第二资源数据;生成第三显示界面;生成小区全景图请求指令,以获取第三资源数据,并生成第四显示界面;生成室内全景图请求指令,以获取第四资源数据,并生成第五显示界面供用户看房;其中,所述第五显示界面包括根据所述室内全景图数据生成的第一房源的室内全景图。本发明能实现远程、全景、精准的看房,方便了看房的双方用户。

Description

远程全景看房方法、装置、用户终端、服务器及存储介质 技术领域
本发明涉及互联网技术领域,具体地涉及一种远程全景看房方法、装置、用户终端、服务器及存储介质。
背景技术
租房关系到广大用户的切身利益。对租房的用户来说,如何获得准确、真实的租房信息并实现安全、快捷的租房是其首要考虑的因素。目前的租房平台的网络展示方法主要是以房产文字介绍为主,再辅以简单的房型图片或者一段拍摄的视频或制作的flash。
上述方法在一定程度上能够让租房的用户对房源有初步的了解,但这只能让用户初步确定是否需要去现场查看房源。用户在通过初步了解后,仍然需要到现场查看房源的具体情况,充分了解房源的真实情况,这就导致用户可能需要跑多次现场才能找到满意的房源,造成了用户以及房东双方时间和精力的浪费。特别地,如果用户暂时不在目的房源所在的城市,这种问题更为凸显。
技术问题
本发明实施例提出的一种远程全景看房方法、装置、用户终端、服务器及存储介质,能实现远程、全景以及精准的看房,极大方便了看房双方,提高了用户的看房体验。
技术解决方案
本发明实施例提供了一种远程全景看房方法,包括如下步骤:
向服务器发起第一资源请求,以获取所述服务器基于所述第一资源请求返回的第一资源数据;所述第一资源数据包括第一三维卫星地图数据;
根据所述第一三维卫星地图数据进行渲染,生成第一显示界面;其中,所述第一显示界面包括第一三维卫星地图;
获取用户基于所述第一三维卫星地图执行的选择操作,根据所述选择操作生成发送至所述服务器的选择指令,以使得所述服务器根据所述选择指令返回符合所述选择操作的条件的小区分布数据;
根据所述第一三维卫星地图数据以及所述小区分布数据进行渲染,生成第二显示界面;所述第二显示界面包括第一三维卫星地图以及分布在所述第一三维卫星地图上的符合条件的小区标识;
检测用户基于所述第二显示界面选择的小区标识,向所述服务器发起第二资源请求,以获取所述服务器基于所述第二资源请求返回的第二资源数据;所述第二资源数据包括相应于小区标识的第二三维卫星地图数据以及通过航拍获得的三维街区模型数据;
根据所述第二资源数据进行渲染,生成第三显示界面;其中,所述第三显示界面包括根据所述第二三维卫星地图数据生成的第二三维卫星地图、根据通过航拍获得的所述三维街区模型数据生成的设置在第二三维卫星地图上的航拍三维街区模型以及小区全景入口;
当检测到用户点击所述小区全景入口时,生成发送至所述服务器的小区全景图请求指令,以获取所述服务器基于所述小区全景图请求指令返回的第三资源数据;其中,所述第三资源数据包括小区全景图数据以及小区内的可供查看的房源的数据;
根据所述第三资源数据进行渲染,以生成第四显示界面;其中,所述第四显示界面包括小区全景图以及小区内可供查看的房源的室内全景入口;
当接收到用户点击可供查看的第一房源的室内全景入口的操作时,生成发送至服务器的室内全景图请求指令,以使得所述服务器根据所述室内全景图请求指令返回第四资源数据;其中,所述第四资源数据包括所述第一房源的室内全景图数据;
根据所述第四资源数据进行渲染,以生成第五显示界面供用户看房;其中,所述第五显示界面包括根据所述室内全景图数据生成的第一房源的室内全景图。
本发明实施例还提供了一种远程全景看房装置,包括:
第一资源请求单元,用于向服务器发起第一资源请求,以获取所述服务器基于所述第一资源请求返回的第一资源数据;所述第一资源数据包括第一三维卫星地图数据;
第一渲染单元,用于根据所述第一三维卫星地图数据进行渲染,生成第一显示界面;其中,所述第一显示界面包括第一三维卫星地图;
操作检测单元,用于检测用户基于所述第一三维卫星地图执行的选择操作,根据所述选择操作生成发送至所述服务器的选择指令,以使得所述服务器根据所述选择指令返回符合所述选择操作的条件的小区分布数据;
第二渲染单元,用于根据所述第一三维卫星地图数据以及所述小区分布数据进行渲染,生成第二显示界面;所述第二显示界面包括第一三维卫星地图以及分布在所述第一三维卫星地图上的符合条件的小区标识;
选择检测单元,用于检测用户基于所述第二显示界面选择的小区标识,向所述服务器发起第二资源请求,以获取所述服务器基于所述第二资源请求返回的第二资源数据;所述第二资源数据包括相应于小区标识的第二三维卫星地图数据以及通过航拍三维街区模型数据;
第三渲染单元,用于根据所述第二资源数据进行渲染,生成第三显示界面;其中,所述第三显示界面包括根据所述第二三维卫星地图数据生成的第二三维卫星地图、根据通过航拍获得的所述三维街区模型数据生成的设置在第二三维卫星地图上的航拍三维街区模型以及小区全景入口;
小区全景图请求单元,用于当检测到用户点击所述小区全景入口时,生成发送至所述服务器的小区全景图请求指令,以获取所述服务器基于所述小区全景图请求指令返回的第三资源数据;其中,所述第三资源数据包括小区全景图数据以及小区内的可供查看的房源的数据;
第四渲染单元,用于根据所述第三资源数据进行渲染,以生成第四显示界面;其中,所述第四显示界面包括小区全景图以及小区内可供查看的房源的室内全景入口;
室内全景图请求单元,用于当接收到用户点击可供查看的第一房源的室内全景入口的操作时,生成发送至服务器的室内全景图请求指令,以使得所述服务器根据所述室内全景图请求指令返回第四资源数据;其中,所述第四资源数据包括所述第一房源的室内全景图数据;
第五渲染单元,用于根据所述第四资源数据进行渲染,以生成第五显示界面供用户看房;其中,所述第五显示界面包括根据所述室内全景图数据生成的第一房源的室内全景图。
本发明实施例还提供了一种远程全景看房方法,包括如下步骤:
接收用户终端发送的第一资源请求,向所述用户终端返回对应的第一资源数据,以使得所述用户终端根据所述第一资源进行渲染,生成第一显示界面;所述第一资源数据包括第一三维卫星地图数据;所述第一显示界面包括第一三维卫星地图;
接收用户终端发送的选择指令,向用户终端返回相应的小区分布数据,使得所述用户终端根据所述第一三维卫星地图数据以及所述小区分布数据进行渲染,生成第二显示界面;其中,所述选择指令由用户基于所述第一三维卫星地图执行的选择操作生成;所述第二显示界面包括第一三维卫星地图以及分布在所述第一三维卫星地图上的符合条件的小区标识;
接收用户终端发送的第二资源请求,向所述用户终端返回对应的第二资源数据,使得所述用户终端根据所述第二资源数据进行渲染,生成第三显示界面;所述第二资源数据包括相应于小区标识的第二三维卫星地图数据以及通过航拍获得的三维街区模型数据;所述第三显示界面包括根据所述第二三维卫星地图数据生成的第二三维卫星地图、根据通过航拍获得的所述三维街区模型数据生成的设置在第二三维卫星地图上的航拍三维街区模型以及小区全景入口;
接收用户终端发送的小区全景图请求指令,向所述用户终端返回第三资源数据,使得所述用户终端根据所述第三资源数据进行渲染,生成第四显示界面;其中,所述第三资源数据包括小区全景图数据以及小区内的可供查看的房源的数据;所述第四显示界面包括小区全景图以及小区内可供查看的房源的室内全景入口;
接收用户终端发送的室内全景图请求指令,向用户终端返回第四资源数据,使得所述用户终端根据所述第四资源数据进行渲染,生成第五显示界面供用户看房;其中,所述第四资源数据包括所述第一房源的室内全景图数据;所述第五显示界面包括根据所述室内全景图数据生成的第一房源的室内全景图。
本发明实施例还提供了一种用户终端,其特征在于,包括处理器、存储器以及存储在所述存储器中且被配置由所述处理执行的计算机程序,所述处理器执行所述计算机程序时实现如上述的远程全景看房方法。
本发明实施例还提供了一种服务器,包括处理器、存储器以及存储在所述存储器中且被配置由所述处理执行的计算机程序,所述处理器执行所述计算机程序时实现如上述的远程全景看房方法。
本发明实施例还提供了一种计算机可读存储介质,所述计算机可读存储介质包括存储的计算机程序,其中,在所述计算机程序运行时控制所述计算机可读存储介质所在设备执行如上述的远程全景看房方法。
有益效果
本发明实施例中,用户可以通过用户终端访问服务器以进行房源的远程查看,在查看过程中,用户可以查看到房源所在街区的三维街区图、小区全景图以及室内全景图,从而用户可以充分了解房源的内部以及外部的真实情况,不需要实地去现场了解房源,避免了用户以及房东来回奔波而造成的时间以及精力浪费,实现了远程、全景、精准的看房。
附图说明
为了更清楚地说明本发明的技术方案,下面将对实施方式中所需要使用的附图作简单地介绍,显而易见地,下面描述中的附图仅仅是本发明的一些实施方式,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据这些附图获得其他的附图。
图1是本发明第一实施例提供的远程全景看房方法的流程示意图。
图2是本发明第一实施例提供的第一显示界面的示意图。
图3是本发明第一实施例提供的第二显示界面的一种示意图。
图4是本发明第一实施例提供的第二显示界面的另一种示意图。
图5是本发明第一实施例提供的第三显示界面的示意图。
图6是本发明第一实施例提供的第二显示界面的另一种示意图。
图7是本发明第一实施例提供的小区鸟瞰全景的示意图。
图8是本发明第一实施例提供的小区地面全景的示意图。
图9是本发明第一实施例提供的室内全景的示意图。
图10是本发明第二实施例提供的远程全景看房方法的流程示意图。
图11是本发明第三实施例提供的远程全景看房装置的流程示意图。
本发明的最佳实施方式
下面将结合本发明实施例中的附图,对本发明实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例仅仅是本发明一部分实施例,而不是全部的实施例。基于本发明中的实施例,本领域普通技术人员在没有作出创造性劳动前提下所获得的所有其他实施例,都属于本发明保护的范围。
请参阅图1,本发明第一实施例提供了一种远程全景看房方法,其可由用户终端来执行,并包括如下步骤:
S101,向服务器发起第一资源请求,以获取所述服务器基于所述第一资源请求返回的第一资源数据;所述第一资源数据包括第一三维卫星地图数据。
在本实施例中,所述用户终端可为台式计算机、笔记本电脑、平板、智能手机、智能眼镜等。其中,所述用户终端与所述服务器的网络结构模式可以是B/S结构(Browser/Server,浏览器/服务器模式),也可以是C/S 结构(Client/Server,客户端/服务端模式)。
在本实施例中,优选地,所述用户终端与所述服务器的网络结构模式为B/S结构,用户可以通过用户终端上安装的浏览器来对服务器进行访问,具体地,用户可以通过在浏览器上输入相应的网址来实现对服务器的访问。
在本实施例中,在与服务器连接连接后,用户终端可以向所述服务器发起第一资源请求,其中,所述服务器在接收到所述第一资源请求后,可从预设的三维卫星地图数据库内搜索相应的第一三维卫星地图数据并发送给所述用户终端。
需要说明的是,在本实施例中,发送的所述第一三维卫星地图数据可以是用户选定的城市或者用户注册时所在的城市的三维卫星地图数据,具体视用户选择而定。
需要说明的是,在本实施例中,所述第一三维卫星地图数据可以由第三方的地图公司提供。
需要说明的是,在本实施例中,所述第一三维卫星地图数据为远景的三维卫星地图数据。
S102,根据所述第一三维卫星地图数据进行渲染,生成第一显示界面;其中,所述第一显示界面包括第一三维卫星地图。
其中,所示第一显示界面可如图2所示。
S103,获取用户基于所述第一三维卫星地图执行的选择操作,根据所述选择操作生成发送至所述服务器的选择指令,以使得所述服务器根据所述选择指令返回符合所述选择操作的条件的小区分布数据。
S104,根据所述第一三维卫星地图数据以及所述小区分布数据进行渲染,生成第二显示界面;所述第二显示界面包括第一三维卫星地图以及分布在所述第一三维卫星地图上的符合条件的小区标识。
在本实施例中,用户可基于所述第一三维卫星地图执行选择操作来获取满足条件的房源或者小区。
如图3所示,在一种实现方式中,用户可以在所述第一三维卫星地图上选择一个自定义位置点(图3中的设置工作位置所在的点),则此时,所述用户终端根据所述选择操作生成选择指令,并将选择指令发送给服务器,其中,所述选择指令包括用户选择的自定义位置点的位置信息。所述服务器在接收到所述选择指令后,在数据库中查找位于所述自定义位置点附近的小区的小区分布数据,并将所述小区分布数据发送给所述用户终端。
此时,所述用户终端根据接收到的所述小区分布数据进行渲染,将小区分布数据对应的图层叠加到所述第一三维卫星地图的图层上,从而在所述第一三维卫星地图上的符合条件的小区标识(如图3中的标识10)。其中,所述标识还可同时显示该小区内的可供查看的房源的数目。
如图4所示,在另一种实现方式中,浏览器的显示窗口内还包括条件搜索栏,用户可以基于所述条件搜索栏来输入搜索条件,如区域、类型、户型、租金范围等。用户终端在接收到用户输入的搜索条件后,生成相应的选择指令,并将所述选择指令发送给所述服务器,所述服务器在接收到所述选择指令后,在数据库中查找符合搜索条件的小区的小区分布数据,并将所述小区分布数据发送给所述用户终端。
此时,所述用户终端根据接收到的所述小区分布数据进行渲染,将小区分布数据对应的图层叠加到所述第一三维卫星地图的图层上,从而在所述第一三维卫星地图上的符合条件的小区标识。
S105,检测用户基于所述第二显示界面选择的小区标识,向所述服务器发起第二资源请求,以获取所述服务器基于所述第二资源请求返回的第二资源数据;所述第二资源数据包括相应于小区标识的第二三维卫星地图数据以及通过航拍获得的三维街区模型数据。
S106,根据所述第二资源数据进行渲染,生成第三显示界面;其中,所述第三显示界面包括根据所述第二三维卫星地图数据生成的第二三维卫星地图、根据通过航拍获得的所述三维街区模型数据生成的设置在第二三维卫星地图上的航拍三维街区模型以及小区全景入口。
在本实施例中,如图5所示,当用户点击任一个小区标识时,可以查看该小区所在的街区的三维街区图。其中,所述三维街区图通过该街区的三维卫星地图数据(可由第三方地图公司提供)以及通过航拍获得的该街区的三维街区模型数据叠加生成。
具体地,所述三维街区模型数据可通过航拍的方式来获得,例如先通过无人机对该街区进行实景采集(例如通过矩阵扫描式图像采集),在采集到清晰的街区实景图像后,通过图片实景成模的方法来建立街区的所有物体的三维模型,从而得到三维街区模型数据。
在进行叠加时,在服务器上预先设置好第二三维卫星地图与航拍三维街区模型的位置映射关系。如此,在加载时,即可以通过该位置映射关系来实现第二三维卫星地图与航拍三维街区模型的叠加显示。
在本实施例中,根据通过航拍获得的航拍三维街区模型使得用户可以清楚、直观的了解到小区所在街区的真实环境情况。
此外,在所述第三显示界面上还提供了小区的全景入口,供用户查看小区的全景图。
需要说明的是,如图6所示,当用户点击小区标识时,还可显示该小区内的可供查看的房源的列表,每个房源的简介以及全景入口。用户可直接通过全景入口观看房源的室内全景图。
S107,当检测到用户点击所述小区全景入口时,生成发送至所述服务器的小区全景图请求指令,以获取所述服务器基于所述小区全景图请求指令返回的第三资源数据;其中,所述第三资源数据包括小区全景图数据以及小区内的可供查看的房源的数据。
S108,根据所述第三资源数据进行渲染,以生成第四显示界面;其中,所述第四显示界面包括小区全景图以及小区内可供查看的房源的室内全景入口。
在本实施例中,所述小区全景图数据包括小区鸟瞰全景图数据以及小区地面全景图数据。在接收所述小区鸟瞰全景图数据以及小区地面全景图数据后,用户终端以默认设置的方式渲染显示小区鸟瞰全景图(如图7所示)或者小区地面全景图(如图8所示);
在鸟瞰全景模式下,所述第四显示界面除了所述小区鸟瞰全景图外,还至少具有以下其中之一:三维卫星地图入口、小区鸟瞰信息、小区密度、房屋朝向指针、小区道路入口分布、小区地面全景入口、三维街区入口、可供查看的房源的信息、小区绿化信息等。
在地面全景模式下,所述第四显示界面除了所述小区地面全景图外,至少具有以下其中之一:三维卫星地图入口、三维街区入口、小区鸟瞰全景入口以及小区不同位置的地面全景入口等。
此外,在第四显示界面上,用户还可以调出该小区所有可供查看的房源的列表,列表中的每个房源可包括该房源的简介以及该房源的室内全景入口。
S109,当接收到用户点击可供查看的第一房源的室内全景入口的操作时,生成发送至服务器的室内全景图请求指令,以使得所述服务器根据所述室内全景图请求指令返回第四资源数据;其中,所述第四资源数据包括所述第一房源的室内全景图数据。
S110,根据所述第四资源数据进行渲染,以生成第五显示界面供用户看房;其中,所述第五显示界面包括根据所述室内全景图数据生成的第一房源的室内全景图。
在本实施例中,用户可以通过点击相应房源的室内全景入口来查看该房源的室内全景。
需要说明的是,在本实施例中,所述小区全景图以及室内全景图可为720度室内全景图,其中,720度全景图可以通过如下方法进行生成:利用一个具有七个摄像头的图像采集设备,从七个角度获取各个位置的图像,再将获取的图像进行合成以生成720度全景图,从而实现全景图的快速合成。
如图9所示,需要说明的是,在一些实施例中,所述室内全景图包括所述第一房源的多个子区域的全景图,其中,每个子区域的全景图包括与其连通的其他子区域的入口,以实现不同子区域的全景图的显示切换。例如,所述第一房源包括客厅、卧室、厨房、洗手间,且客厅与卧室、厨房连通,洗手间与厨房连通,则在所述客厅的全景图上包括卧室和厨房的入口,在卧室的全景图包括客厅的入口,在厨房的全景图包括洗手间和客厅的入口。用户可以通过点击这些入口来实现各个子房间的全景图的显示切换。
需要说明的是,在一些实施例中,所述室内全景图包括所述第一房源的多个子区域的全景图以及所述第一房源的缩略图,所述缩略图包括组成所述第一房源的所有子房间,从而通过点击子房间进入对应的子房间的全景图。例如,所述缩略图设置于所述室内全景图的右上方,其具体的结构与第一房源的实际结构一致,用户可以通过点击相应的子房间来查看该子区域的全景图。
需要说明的是,在一些实施例中,所述室内全景图还包括至少一个交互热点;其中,所述交互热点关联有用于交互的多媒体资源;
则所述远程全景看房方法还包括:
当检测到交互热点被触发时,播放与所述交互热点对应的多媒体资源。
其中,交互热点被设置在所述第一房源的全景图的相应位置,例如,可以在客厅的电视机的位置处设置交互热点,用户点击交互热点时,可播放与该交互热点对应的多媒体资源(例如一段视频)。此外,还可以在相册的位置处设置交互热点,用户点击该交互热点时,可显示与该交互热点对应的多媒体资源(例如一组相册图片)。
此外,所述热点还可以关联到网址或者外部链接等,从而当用户触发热点时,跳转到与网址或者外部链接对应的网页。热点具体关联的项目可根据实际需要进行设置,本发明不做具体限定。
需要说明的是,上述实施例中,浏览器可基于WebGL进行三维模型的渲染。具体地,通过Three.js技术,将模型在网页上进行渲染,并可进行三维可视化操作。当然,应当理解的是,也可以通过OpenGL或者其他3D绘图协议,本发明不做具体限定。
需要说明的是,在本实施例中,可通过JS脚本进行HTML页面控件、特效添加交互行为。
需要说明的是,在本实施例中,可对各部分的全景数据进行加密以及优化。加密具体是通过对全景图片碎片化处理来实现,而优化则通过多层缩略图加载技术,提高图片加载效率。
需要说明的是,在本实施例中,在全景显示下,还支持多视角切换控制,多视角包括小行星视角、鱼眼视角、远近视角等,这些方案均在本发明的保护范围之内。
需要说明的是,在本实施例中,上述各个显示界面的显示可以通过网页的形式在用户终端上展示,也可以通过客户端(如一个APP 或者软件客户端)加载的形式在用户终端上进行展示,但并不仅限于此。通过其他媒介进行显示界面的展示也在本发明的保护范围之内,例如,还可以通过普通投影、全息投影、投屏或者虚拟现实(MR)等方式进行显示界面的显示。
需要说明的是,在上述描述中,主要以租房作为一个具体的应用场景介绍了本发明实施例的应用,但本发明实施例的应用范围不局限于此,本发明实施例还可应用于购房前的看房或者远程查看宾馆酒店等,这些应用都属于本发明的保护范围。
上述实施例中,用户可以通过用户终端访问服务器以进行房源的远程查看,在查看过程中,用户可以查看到房源所在街区的三维街区图、小区全景图以及室内全景图,从而用户可以充分了解房源的内部以及外部的真实情况,不需要实地去现场了解房源,避免了用户以及房东来回奔波而造成的时间以及精力浪费,实现了远程、全景、精准的看房。
优选地,所述第二资源数据还包括与选择的小区标识对应的周边设施的数据;所述第三显示界面还包括周边设施分类列表;
则所述远程全景看房方法还包括:
当检测到用户点击周边设施分类列表中的分类标识时,读取与所述分类标识对应的周边设施的数据,并在所述第三显示界面上显示对应的周边设施的标识;其中,所述周边设施至少包括以下其中之一:交通设施、医疗设施、娱乐设施、生活设施、公共设施。
在通常情况下,小区所在的街区或者附近的街区的周边设施也是租房用户重点考虑的因素之一,比如租房用户会考虑周边设施是否完善,公交系统是否方便,生活娱乐设施是否齐全等。
为此,在本实施例中,所述第二资源数据还包括与选择的小区标识对应的周边设施的数据;所述第三显示界面还包括周边设施分类列表(如图5所示)。其中,在显示的第三显示界面上,用户可以点击分类标识来显示对应的周边设施。例如用户想要查找公交设施,可点击分类列表中的分类标识“车站”,则用户终端可在第三显示界面上标注出对应的公交设施(例如地铁站、公交站)。当用户再次点击该分类标识时,标注消失。
当然,需要说明的是,本实施例中,分类列表中的分类标识还可以包括超市、学校、医院、娱乐等,这可根据实际需要进行调整,本发明不做具体限定。
优选地,在本一些实施例中,所述室内全景图还包括意向金支付入口以及电子合同签订入口;
其中,当确认用户通过意向金支付入口完成意向金支付后,在预定的意向时间内关闭所述第一房源的所有全景入口;
当确认用户通过电子合同签订入口签订租房合同并完成租金支付后,在预定的合约期限内关闭所述第一房源的所有全景入口;其中,所述用户为实名认证的用户。
在本实施例中,当用户浏览完了第一房源的室内全景图、相关的小区全景图以及三维街区图后,若用户对第一房源比较满意,则可以通过调用室内全景图的意向金支付入口以及电子合同签订入口进行意向金的支付或者租房合同的签订。其中,当用户选择支付意向金后,用户终端向服务器发送意向金支付指令,服务器返回意向金支付界面以供用户进行支付(可通过电子银行、支付宝、微信支付进行支付)。当服务器确认用户完成意向金的支付后,在预定的意向时间(如10天)内锁定第一房源,即关闭所述第一房源的所有全景入口,从而其他用户无法在浏览该第一房源。当用户选择签订电子合同后,用户终端向服务器发送电子合同签订指令,服务器返回预先创建好的电子合同以供用户填写个人资料以及确认,当用户确认好合同后,可进行电子合同的签订以及租金的支付(同样的,可通过电子银行、支付宝、微信支付进行支付),服务器在确认电子合同有效后在预定的合约期限内关闭所述第一房源的所有全景入口,从而其他用户无法在浏览该第一房源。
需要说明的是,意向金的支付以及电子合同的签订需要用户为实名认证的用户。在用户在服务器上注册账号时,服务器会要求用户提供实名认证信息,例如包括用户的实名以及身份证信息等。用户在通过用户终端填写实名认证信息后发送给服务器,由所述服务器对实名认证信息进行验证,若验证通过则将该用户分组为实名认证用户。
需要说明的是,在本发明的一些实施例中,若用户通过移动终端来访问服务器,则还可提供VR观看模式。
具体地,在显示全景图的情况下,当接收到进入VR观看的指令时,向所述服务器请求与当前显示的全景图对应的VR资源;
根据所述VR资源进行渲染,生成VR图像;
通过Forwardvector检测视点中心,并根据检测的视点中心进行热点的触发或者切换。
在本实施例中,用户可将手机放入到手机眼镜盒子并启动VR观看模式,则所述服务器返回相应的VR资源(包括小区全景资源以及室内全景资源),由移动终端对VR资源进行渲染并显示VR图像,从而使得用户更身临其境的了解小区和房源的情况。此外,在VR观看模式下,还支持视点中心通过Forwardvector检测热点进行切换,实现浸入式的看房体验。
本发明的实施方式
请参阅图10,本发明第二实施例提供了一种远程全景看房方法,其从服务器的角度处理,包括如下步骤:
S201,接收用户终端发送的第一资源请求,向所述用户终端返回对应的第一资源数据,以使得所述用户终端根据所述第一资源进行渲染,生成第一显示界面;所述第一资源数据包括第一三维卫星地图数据;所述第一显示界面包括第一三维卫星地图;
S202,接收用户终端发送的选择指令,向用户终端返回相应的小区分布数据,使得所述用户终端根据所述第一三维卫星地图数据以及所述小区分布数据进行渲染,生成第二显示界面;其中,所述选择指令由用户基于所述第一三维卫星地图执行的选择操作生成;所述第二显示界面包括第一三维卫星地图以及分布在所述第一三维卫星地图上的符合条件的小区标识;
S203,接收用户终端发送的第二资源请求,向所述用户终端返回对应的第二资源数据,使得所述用户终端根据所述第二资源数据进行渲染,生成第三显示界面;所述第二资源数据包括相应于小区标识的第二三维卫星地图数据以及通过航拍获得的三维街区模型数据;所述第三显示界面包括根据所述第二三维卫星地图数据生成的第二三维卫星地图、根据通过航拍获得的所述三维街区模型数据生成的设置在第二三维卫星地图上的航拍三维街区模型以及小区全景入口;
S204,接收用户终端发送的小区全景图请求指令,向所述用户终端返回第三资源数据,使得所述用户终端根据所述第三资源数据进行渲染,生成第四显示界面;其中,所述第三资源数据包括小区全景图数据以及小区内的可供查看的房源的数据;所述第四显示界面包括小区全景图以及小区内可供查看的房源的室内全景入口;
S205,接收用户终端发送的室内全景图请求指令,向用户终端返回第四资源数据,使得所述用户终端根据所述第四资源数据进行渲染,生成第五显示界面供用户看房;其中,所述第四资源数据包括所述第一房源的室内全景图数据;所述第五显示界面包括根据所述室内全景图数据生成的第一房源的室内全景图。
在本实施例中,服务器存储有各种资源数据,包括三维卫星地图数据、各个房源的室内全景图数据、各个小区的全景图数据、通过航拍获得的各个街区的三维街区模型数据等。当服务器接收到用户终端的数据请求时,其根据数据请求发送相应的数据给用户终端进行渲染显示。其中,如果是静态资源,则服务器构建响应报文发回给用户终端。如果是动态资源,则服务器将资源地址发给php解析器,解析php程序文件,解析完毕后将内容发回给httpd,httpd构建响应报文,发回给用户终端。此外,为了加快数据的传输,服务器通过CDN节点将数据分布加载,实现同步更新,同时数据中的模型是进行拓扑优选处理后封装成JSON数据进行上传的,能减少模型的面数,加快加载速度。
请参阅图11,本发明第三实施例还提供了一种远程全景看房装置,包括:
第一资源请求单元310,用于向服务器发起第一资源请求,以获取所述服务器基于所述第一资源请求返回的第一资源数据;所述第一资源数据包括第一三维卫星地图数据;
第一渲染单元320,用于根据所述第一三维卫星地图数据进行渲染,生成第一显示界面;其中,所述第一显示界面包括第一三维卫星地图;
操作检测单元330,用于检测用户基于所述第一三维卫星地图执行的选择操作,根据所述选择操作生成发送至所述服务器的选择指令,以使得所述服务器根据所述选择指令返回符合所述选择操作的条件的小区分布数据;
第二渲染单元340,用于根据所述第一三维卫星地图数据以及所述小区分布数据进行渲染,生成第二显示界面;所述第二显示界面包括第一三维卫星地图以及分布在所述第一三维卫星地图上的符合条件的小区标识;
选择检测单元350,用于检测用户基于所述第二显示界面选择的小区标识,向所述服务器发起第二资源请求,以获取所述服务器基于所述第二资源请求返回的第二资源数据;所述第二资源数据包括相应于小区标识的第二三维卫星地图数据以及通过航拍获得的三维街区模型数据;
第三渲染单元360,用于根据所述第二资源数据进行渲染,生成第三显示界面;其中,所述第三显示界面包括根据所述第二三维卫星地图数据生成的第二三维卫星地图、根据通过航拍获得的所述三维街区模型数据生成的设置在第二三维卫星地图上的航拍三维街区模型以及小区全景入口;
小区全景图请求单元370,用于当检测到用户点击所述小区全景入口时,生成发送至所述服务器的小区全景图请求指令,以获取所述服务器基于所述小区全景图请求指令返回的第三资源数据;其中,所述第三资源数据包括小区全景图数据以及小区内的可供查看的房源的数据;
第四渲染单元380,用于根据所述第三资源数据进行渲染,以生成第四显示界面;其中,所述第四显示界面包括小区全景图以及小区内可供查看的房源的室内全景入口;
室内全景图请求单元390,用于当接收到用户点击可供查看的第一房源的室内全景入口的操作时,生成发送至服务器的室内全景图请求指令,以使得所述服务器根据所述室内全景图请求指令返回第四资源数据;其中,所述第四资源数据包括所述第一房源的室内全景图数据;
第五渲染单元391,用于根据所述第四资源数据进行渲染,以生成第五显示界面供用户看房;其中,所述第五显示界面包括根据所述室内全景图数据生成的第一房源的室内全景图。
优选地,所述选择操作为在所述第一三维卫星地图上设置一个自定义位置点;则所述小区分布数据为位于所述自定义位置点预定范围内的小区的数据;或者
所述选择操作为在条件搜索界面上输入搜索条件;则所述小区分布数据为符合所述搜索条件的小区的数据。
优选地,所述三维街区模型数据通过无人机进行实景图像采集,并对采集的实景图像进行实景图片建模获得。
优选地,所述第二资源数据还包括与选择的小区标识对应的周边设施的数据;所述第三显示界面还包括周边设施分类列表;
则还包括:
标识显示单元,用于当检测到用户点击周边设施分类列表中的分类标识时,读取与所述分类标识对应的周边设施的数据,并在所述第三显示界面上显示对应的周边设施的标识;其中,所述周边设施至少包括以下其中之一:交通设施、医疗设施、娱乐设施、生活设施、公共设施。
优选地,所述室内全景图包括所述第一房源的多个子区域的全景图,其中,每个子区域的全景图包括与其连通的其他子区域的入口,以实现不同子区域的全景图的显示切换;和/或
所述室内全景图包括所述第一房源的多个子区域的全景图以及所述第一房源的缩略图,所述缩略图包括组成所述第一房源的所有子区域,从而通过点击子房间进入对应的子房间的全景图。
优选地,所述室内全景图还包括至少一个交互热点;其中,所述交互热点关联有用于交互的多媒体资源;
则还包括:
热点触发检测单元,用于当检测到交互热点被触发时,播放与所述交互热点对应的多媒体资源。
优选地,所述小区全景图数据包括小区鸟瞰全景图数据以及小区地面全景图数据;
则所述第四渲染单元具体用于:
读取所述小区鸟瞰全景图数据以及小区地面全景图数据,并以默认设置的方式渲染显示小区鸟瞰全景图或者小区地面全景图;其中,所述小区鸟瞰全景图的界面至少具有以下其中之一:三维卫星地图入口、小区鸟瞰信息、小区密度、房屋朝向指针、小区道路入口分布、小区地面全景入口、三维街区入口、可供查看的房源的全景入口;所述小区地面全景图的界面至少具有以下其中之一:三维卫星地图入口、三维街区入口、小区鸟瞰全景入口。
优选地,所述室内全景图还包括意向金支付入口以及电子合同签订入口;
其中,当确认用户通过意向金支付入口完成意向金支付后,在预定的意向时间内关闭所述第一房源的所有全景入口;
当确认用户通过电子合同签订入口签订租房合同并完成租金支付后,在预定的合约期限内关闭所述第一房源的所有全景入口;其中,所述用户为实名认证的用户。
优选地,在显示全景图的情况下,当接收到进入VR观看的指令时,向所述服务器请求与当前显示的全景图对应的VR资源;
根据所述VR资源进行渲染,生成VR图像;
通过Forwardvector检测视点中心,并根据检测的视点中心进行热点的触发或者切换。
本发明第四实施例提供了一种用户终端,包括处理器、存储器以及存储在所述存储器中且被配置由所述处理执行的计算机程序,所述处理器执行所述计算机程序时实现如第一实施例所述的远程全景看房方法。
本发明第五实施例提供了一种服务器,包括处理器、存储器以及存储在所述存储器中且被配置由所述处理执行的计算机程序,所述处理器执行所述计算机程序时实现如第二实施例所述的远程全景看房方法。
本发明第六实施例提供一种计算机可读存储介质,所述计算机可读存储介质包括存储的计算机程序。其中,在所述计算机程序运行时控制所述计算机可读存储介质所在设备执行上述第一实施例中所述的一种远程全景看房方法。
示例性地,本发明第六实施例和第七实施例中所述的计算机程序可以被分割成一个或多个模块,所述一个或者多个模块被存储在所述存储器中,并由所述处理器执行,以完成本发明。所述一个或多个模块可以是能够完成特定功能的一系列计算机程序指令段,该指令段用于描述所述计算机程序在所述实现一种经编织物瑕疵融合滤波检测设备中的执行过程。例如,本发明第二实施例中所述的装置。
所称处理器可以是中央处理单元(Central Processing Unit,CPU),还可以是其他通用处理器、数字信号处理器 (Digital Signal Processor,DSP)、专用集成电路 (Application Specific Integrated Circuit,ASIC)、现成可编程门阵列 (Field-Programmable Gate Array,FPGA)或者其他可编程逻辑器件、分立门或者晶体管逻辑器件、分立硬件组件等。通用处理器可以是微处理器或者该处理器也可以是任何常规的处理器等,所述处理器是所述经编织物瑕疵融合滤波检测方法的控制中心,利用各种接口和线路连接整个所述实现经编织物瑕疵融合滤波检测方法的各个部分。
所述存储器可用于存储所述计算机程序和/或模块,所述处理器通过运行或执行存储在所述存储器内的计算机程序和/或模块,以及调用存储在存储器内的数据,实现基于物联网的物品追踪方法的各种功能。所述存储器可主要包括存储程序区和存储数据区,其中,存储程序区可存储操作系统、至少一个功能所需的应用程序(比如声音播放功能、文字转换功能等)等;存储数据区可存储根据手机的使用所创建的数据(比如音频数据、文字消息数据等)等。此外,存储器可以包括高速随机存取存储器,还可以包括非易失性存储器,例如硬盘、内存、插接式硬盘、智能存储卡(Smart Media Card, SMC)、安全数字(Secure Digital, SD)卡、闪存卡(Flash Card)、至少一个磁盘存储器件、闪存器件、或其他易失性固态存储器件。
其中,所述实现的模块如果以软件功能单元的形式实现并作为独立的产品销售或使用时,可以存储在一个计算机可读取存储介质中。基于这样的理解,本发明实现上述实施例方法中的全部或部分流程,也可以通过计算机程序来指令相关的硬件来完成,所述的计算机程序可存储于一个计算机可读存储介质中,该计算机程序在被处理器执行时,可实现上述各个方法实施例的步骤。其中,所述计算机程序包括计算机程序代码,所述计算机程序代码可以为源代码形式、对象代码形式、可执行文件或某些中间形式等。所述计算机可读介质可以包括:能够携带所述计算机程序代码的任何实体或装置、记录介质、U盘、移动硬盘、磁碟、光盘、计算机存储器、只读存储器(ROM,Read-Only Memory)、随机存取存储器(RAM,Random Access Memory)、电载波信号、电信信号以及软件分发介质等。需要说明的是,所述计算机可读介质包含的内容可以根据司法管辖区内立法和专利实践的要求进行适当的增减,例如在某些司法管辖区,根据立法和专利实践,计算机可读介质不包括电载波信号和电信信号。
需说明的是,以上所描述的装置实施例仅仅是示意性的,其中所述作为分离部件说明的单元可以是或者也可以不是物理上分开的,作为单元显示的部件可以是或者也可以不是物理单元,即可以位于一个地方,或者也可以分布到多个网络单元上。可以根据实际的需要选择其中的部分或者全部模块来实现本实施例方案的目的。另外,本发明提供的装置实施例附图中,模块之间的连接关系表示它们之间具有通信连接,具体可以实现为一条或多条通信总线或信号线。本领域普通技术人员在不付出创造性劳动的情况下,即可以理解并实施。
以上所述,仅为本发明较佳的具体实施方式,但本发明的保护范围并不局限于此,任何熟悉本技术领域的技术人员在本发明揭露的技术范围内,可轻易想到的变化或替换,都应涵盖在本发明的保护范围之内。因此,本发明的保护范围应该以权利要求的保护范围为准。

Claims (14)

  1. 一种远程全景看房方法,其特征在于,包括如下步骤:
    向服务器发起第一资源请求,以获取所述服务器基于所述第一资源请求返回的第一资源数据;所述第一资源数据包括第一三维卫星地图数据;
    根据所述第一三维卫星地图数据进行渲染,生成第一显示界面;其中,所述第一显示界面包括第一三维卫星地图;
    获取用户基于所述第一三维卫星地图执行的选择操作,根据所述选择操作生成发送至所述服务器的选择指令,以使得所述服务器根据所述选择指令返回符合所述选择操作的条件的小区分布数据;
    根据所述第一三维卫星地图数据以及所述小区分布数据进行渲染,生成第二显示界面;所述第二显示界面包括第一三维卫星地图以及分布在所述第一三维卫星地图上的符合条件的小区标识;
    检测用户基于所述第二显示界面选择的小区标识,向所述服务器发起第二资源请求,以获取所述服务器基于所述第二资源请求返回的第二资源数据;所述第二资源数据包括相应于小区标识的第二三维卫星地图数据以及通过航拍获得的三维街区模型数据;
    根据所述第二资源数据进行渲染,生成第三显示界面;其中,所述第三显示界面包括根据所述第二三维卫星地图数据生成的第二三维卫星地图、根据通过航拍获得的所述三维街区模型数据生成的设置在第二三维卫星地图上的航拍三维街区模型以及小区全景入口;
    当检测到用户点击所述小区全景入口时,生成发送至所述服务器的小区全景图请求指令,以获取所述服务器基于所述小区全景图请求指令返回的第三资源数据;其中,所述第三资源数据包括小区全景图数据以及小区内的可供查看的房源的数据;
    根据所述第三资源数据进行渲染,以生成第四显示界面;其中,所述第四显示界面包括小区全景图以及小区内可供查看的房源的室内全景入口;
    当接收到用户点击可供查看的第一房源的室内全景入口的操作时,生成发送至服务器的室内全景图请求指令,以使得所述服务器根据所述室内全景图请求指令返回第四资源数据;其中,所述第四资源数据包括所述第一房源的室内全景图数据;
    根据所述第四资源数据进行渲染,以生成第五显示界面供用户看房;其中,所述第五显示界面包括根据所述室内全景图数据生成的第一房源的室内全景图。
  2. 根据权利要求1所述的远程全景看房方法,其特征在于,所述选择操作为在所述第一三维卫星地图上设置一个自定义位置点;则所述小区分布数据为位于所述自定义位置点预定范围内的小区的数据;或者
    所述选择操作为在条件搜索界面上输入搜索条件;则所述小区分布数据为符合所述搜索条件的小区的数据。
  3. 根据权利要求1所述的远程全景看房方法,其特征在于,所述三维街区模型数据通过无人机进行实景图像采集,并对采集的实景图像进行实景图片建模获得。
  4. 根据权利要求1所述的远程全景看房方法,其特征在于,所述第二资源数据还包括与选择的小区标识对应的周边设施的数据;所述第三显示界面还包括周边设施分类列表;
    则所述远程全景看房方法还包括:
    当检测到用户点击周边设施分类列表中的分类标识时,读取与所述分类标识对应的周边设施的数据,并在所述第三显示界面上显示对应的周边设施的标识;其中,所述周边设施至少包括以下其中之一:交通设施、医疗设施、娱乐设施、生活设施、公共设施。
  5. 根据权利要求1所述的远程全景看房方法,其特征在于,所述室内全景图包括所述第一房源的多个子区域的全景图,其中,每个子区域的全景图包括与其连通的其他子区域的入口,以实现不同子区域的全景图的显示切换;和/或
    所述室内全景图包括所述第一房源的多个子区域的全景图以及所述第一房源的缩略图,所述缩略图包括组成所述第一房源的所有子区域,从而通过点击子房间进入对应的子房间的全景图。
  6. 根据权利要求5所述的远程全景看房方法,其特征在于,所述室内全景图还包括至少一个交互热点;其中,所述交互热点关联有用于交互的多媒体资源;
    则所述远程全景看房方法还包括:
    当检测到交互热点被触发时,播放与所述交互热点对应的多媒体资源。
  7. 根据权利要求6所述的远程全景看房方法,其特征在于,所述小区全景图数据包括小区鸟瞰全景图数据以及小区地面全景图数据;
    则所述根据所述第三资源数据进行渲染,以生成第四显示界面具体为:
    读取所述小区鸟瞰全景图数据以及小区地面全景图数据,并以默认设置的方式渲染显示小区鸟瞰全景图或者小区地面全景图;其中,所述小区鸟瞰全景图的界面至少具有以下其中之一:三维卫星地图入口、小区鸟瞰信息、小区密度、房屋朝向指针、小区道路入口分布、小区地面全景入口、三维街区入口、可供查看的房源的全景入口;所述小区地面全景图的界面至少具有以下其中之一:三维卫星地图入口、三维街区入口、小区鸟瞰全景入口。
  8. 根据权利要求1所述的远程全景看房方法,其特征在于,所述室内全景图还包括意向金支付入口以及电子合同签订入口;
    其中,当确认用户通过意向金支付入口完成意向金支付后,在预定的意向时间内关闭所述第一房源的所有全景入口;
    当确认用户通过电子合同签订入口签订租房合同并完成租金支付后,在预定的合约期限内关闭所述第一房源的所有全景入口;其中,所述用户为实名认证的用户。
  9. 根据权利要求1所述的远程全景看房方法,其特征在于,
    在显示全景图的情况下,当接收到进入VR观看的指令时,向所述服务器请求与当前显示的全景图对应的VR资源;
    根据所述VR资源进行渲染,生成VR图像;
    通过Forwardvector检测视点中心,并根据检测的视点中心进行热点的触发或者切换。
  10. 一种远程全景看房方法,其特征在于,包括如下步骤:
    接收用户终端发送的第一资源请求,向所述用户终端返回对应的第一资源数据,以使得所述用户终端根据所述第一资源进行渲染,生成第一显示界面;所述第一资源数据包括第一三维卫星地图数据;所述第一显示界面包括第一三维卫星地图;
    接收用户终端发送的选择指令,向用户终端返回相应的小区分布数据,使得所述用户终端根据所述第一三维卫星地图数据以及所述小区分布数据进行渲染,生成第二显示界面;其中,所述选择指令由用户基于所述第一三维卫星地图执行的选择操作生成;所述第二显示界面包括第一三维卫星地图以及分布在所述第一三维卫星地图上的符合条件的小区标识;
    接收用户终端发送的第二资源请求,向所述用户终端返回对应的第二资源数据,使得所述用户终端根据所述第二资源数据进行渲染,生成第三显示界面;所述第二资源数据包括相应于小区标识的第二三维卫星地图数据以及通过航拍获得的三维街区模型数据;所述第三显示界面包括根据所述第二三维卫星地图数据生成的第二三维卫星地图、根据通过航拍获得的所述三维街区模型数据生成的设置在第二三维卫星地图上的航拍三维街区模型以及小区全景入口;
    接收用户终端发送的小区全景图请求指令,向所述用户终端返回第三资源数据,使得所述用户终端根据所述第三资源数据进行渲染,生成第四显示界面;其中,所述第三资源数据包括小区全景图数据以及小区内的可供查看的房源的数据;所述第四显示界面包括小区全景图以及小区内可供查看的房源的室内全景入口;
    接收用户终端发送的室内全景图请求指令,向用户终端返回第四资源数据,使得所述用户终端根据所述第四资源数据进行渲染,生成第五显示界面供用户看房;其中,所述第四资源数据包括所述第一房源的室内全景图数据;所述第五显示界面包括根据所述室内全景图数据生成的第一房源的室内全景图
  11. 一种远程全景看房装置,其特征在于,包括:
    第一资源请求单元,用于向服务器发起第一资源请求,以获取所述服务器基于所述第一资源请求返回的第一资源数据;所述第一资源数据包括第一三维卫星地图数据;
    第一渲染单元,用于根据所述第一三维卫星地图数据进行渲染,生成第一显示界面;其中,所述第一显示界面包括第一三维卫星地图;
    操作检测单元,用于检测用户基于所述第一三维卫星地图执行的选择操作,根据所述选择操作生成发送至所述服务器的选择指令,以使得所述服务器根据所述选择指令返回符合所述选择操作的条件的小区分布数据;
    第二渲染单元,用于根据所述第一三维卫星地图数据以及所述小区分布数据进行渲染,生成第二显示界面;所述第二显示界面包括第一三维卫星地图以及分布在所述第一三维卫星地图上的符合条件的小区标识;
    选择检测单元,用于检测用户基于所述第二显示界面选择的小区标识,向所述服务器发起第二资源请求,以获取所述服务器基于所述第二资源请求返回的第二资源数据;所述第二资源数据包括相应于小区标识的第二三维卫星地图数据以及通过航拍获得的三维街区模型数据;
    第三渲染单元,用于根据所述第二资源数据进行渲染,生成第三显示界面;其中,所述第三显示界面包括根据所述第二三维卫星地图数据生成的第二三维卫星地图、根据通过航拍获得的所述三维街区模型数据生成的设置在第二三维卫星地图上的航拍三维街区模型以及小区全景入口;
    小区全景图请求单元,用于当检测到用户点击所述小区全景入口时,生成发送至所述服务器的小区全景图请求指令,以获取所述服务器基于所述小区全景图请求指令返回的第三资源数据;其中,所述第三资源数据包括小区全景图数据以及小区内的可供查看的房源的数据;
    第四渲染单元,用于根据所述第三资源数据进行渲染,以生成第四显示界面;其中,所述第四显示界面包括小区全景图以及小区内可供查看的房源的室内全景入口;
    室内全景图请求单元,用于当接收到用户点击可供查看的第一房源的室内全景入口的操作时,生成发送至服务器的室内全景图请求指令,以使得所述服务器根据所述室内全景图请求指令返回第四资源数据;其中,所述第四资源数据包括所述第一房源的室内全景图数据;
    第五渲染单元,用于根据所述第四资源数据进行渲染,以生成第五显示界面供用户看房;其中,所述第五显示界面包括根据所述室内全景图数据生成的第一房源的室内全景图。
  12. 一种用户终端,其特征在于,包括处理器、存储器以及存储在所述存储器中且被配置由所述处理执行的计算机程序,所述处理器执行所述计算机程序时实现如权利要求1至9任一项所述的远程全景看房方法。
  13. 一种服务器,其特征在于,包括处理器、存储器以及存储在所述存储器中且被配置由所述处理执行的计算机程序,所述处理器执行所述计算机程序时实现如权利要求10所述的远程全景看房方法。
  14. 一种计算机可读存储介质,其特征在于,所述计算机可读存储介质包括存储的计算机程序,其中,在所述计算机程序运行时控制所述计算机可读存储介质所在设备执行如权利要求1至10中任意一项所述的远程全景看房方法。
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