TW202238504A - Computer assisted system, method, and user equipment for performing building inspection task - Google Patents

Abstract

The present invention relates to a computer assisted system for performing building inspection task, the system comprising: a logical server installed with a building inspection main computer program product comprising a quick operation interface program component; and a user equipment communicatively connected with the logical server and providing a front-end computer program product for a user to operate, so as to enable the quick operation interface program component to generate a quick operation interface in the front-end computer program product, in which the user performs at least an inspection for a building to have a manual inspection result and uploads the manual inspection result to the logical server by operating the quick operation interface, such that a building inspection report is automatically generated by the building inspection main computer program product.

Description

Building inspection computer aided system, method and user equipment

The present invention relates to a building inspection computer-aided system, method, and user equipment, especially a building inspection computer-aided system that assists building inspection, house inspection, or handover operations through the Internet of Things and information and communication technology, method and user equipment.

In the conventional technology, the traditional inspection of the current condition of the building, house inspection and handover methods, etc., must be inspected by inspectors manually operating various non-destructive electronic testing instruments to inspect the building item by item. The inspection items generally cover the hard Software details: water and electricity engineering, five major pipelines, fire protection engineering, environmental engineering, including water quality, air, sunlight, noise, radiation, etc., weak current engineering, and leaking wall cancer, etc., through testing instruments, all inspection items of buildings are inspected in detail , to check and confirm that there are no missing buildings.

Usually the inspection process involves a series of complicated and trivial processes. The inspectors must invite multiple parties to conduct the inspection together. If the defect is corrected, repeated inspections will be required. It is also necessary to take photos for each inspection item and record the inspection results in words to judge whether the item is correct. Qualified, a large amount of information will eventually be made into a home inspection report, but the traditional home inspection and check-in operation method involves a large number of paper documents, and it is all done manually, and it also includes many repeated steps. It is quite labor-intensive and time-consuming for the inspectors.

Therefore, there is an urgent need to apply modern technology to build a set of digital tools to assist the traditional inspection of buildings, house inspections, and handover operations, so that the process can be as intelligent and automated as possible, and the overall execution and operation become more efficient. Objective, simple, relaxed, more accurate, and reduce the workload of surveyors.

Because of this reason, in view of the shortcomings in the conventional technology, the inventor has tried and studied carefully, and with a persistent spirit, he finally conceived this case "computer-aided system, method and user equipment for building inspection", which can overcome The above-mentioned shortcoming, the following is a brief description of the present invention.

With the development of science and technology, the entire home inspection and check-in operation should be automated with the advancement of technology, especially Taiwan's specialized information and communication (ICT) technology. Therefore, this invention proposes and builds an automated smart house inspection check-in system Combining various technologies such as IoT inspection instrument, mobile communication network, central server, user equipment, program service platform, front-end application program (App), and artificial intelligence integration algorithm Composed together, it can completely standardize, systematize and automate the traditional structural inspection, house inspection and point delivery.

The present invention proposes a building detection computer aided system, which includes: a logic server, which is installed with a building detection main control computer program product including a shortcut operation interface program element; and user equipment, which is communicated with the logic server. , and provide a front-end computer program product for the user to operate, so as to drive the shortcut operation interface program component to generate a shortcut operation interface in the front-end computer program product, and the user executes at least one operation on the building structure by operating the shortcut operation interface Check the test items, and upload the manual test results to the logic server device, the house inspection report is automatically generated by the main control computer program product of the building inspection.

The present invention further proposes a computer-aided user equipment for building inspection, which is in communication with a logical server installed with a building inspection main control computer program product including a quick operation interface program component. The computer-aided user equipment for building inspection includes: a display unit; and a processor unit, which executes a front-end computer program product for the user to operate, so as to drive the shortcut operation interface program element to generate a shortcut operation interface in the front-end computer program product and the display unit, and the user operates the shortcut The operation interface is used to perform inspection of at least one inspection item on a building structure, and the manual inspection result is uploaded to the logic server, and a house inspection report is automatically generated by the building inspection main control computer program product.

The present invention further proposes a computer-aided method for building detection, which includes: installing a building detection main control computer program product including a shortcut operation interface program component on a remote logic server; providing at least one Internet of Things detection instrument for building detection Perform non-destructive testing on object structures and produce instrument testing results; execute front-end computer program products on user equipment for user operations, so as to drive the shortcut operation interface program components to generate shortcut operation interfaces in the front-end computer program products, so that The user performs inspection of at least one inspection item on the building structure by operating the shortcut operation interface, and generates manual inspection results; and uploads the manual inspection results and the instrument inspection results to the logic server, and the building The inspection master computer program product automatically generates the house inspection report.

The above summary of the invention is intended to provide a simplified summary of the disclosure to enable readers to have a basic understanding of the disclosure. This summary of the invention is not intended to disclose a complete description of the invention, and is not intended to point out important/key elements or components of the embodiments of the invention. define the scope of the invention.

10: Building detection computer-aided system of the present invention

50: user

100: user equipment

101: Processor unit

103: Communication module

105: storage unit

107: Display unit

109: Front-end program

111: Shortcut operation interface

120: desktop computer

125: Notebook computer

130:Smartphone

135: Tablet device

200:IoT detection instrument

201:High resolution camera

202: Sound Amplifier

203: Glass thickness gauge

204: Air quality meter

205: Ionizing radiation instrument

206:Radiation detector

207: Infrared Level

208: Chloride ion detector

240: wireless local area network

250:Internet

300: logic server

350: Building detection main control program

351: Integrated Algorithm Program Components

353:Shortcut operation interface program components

360: Building Inspection Database

401: Check item shortcut option interface

403: The first type of inspection rule shortcut menu interface

405: The second type of inspection rules shortcut menu interface

407: The third type of inspection rule shortcut menu interface

409: Floating window interface

411: indicator mark

413: Add shortcut keys for checking items

415: Interface for generating house inspection report

417:Shortcut button for generating house inspection report

511:Building structures

600: The computer-aided method for building detection of the present invention

601-607: Implementation steps

Figure 1 reveals the system architecture view of the computer-aided system for building detection of the present invention;

Figure 2 discloses a view of the remote logic server and the hardware network equipment functional elements of the user equipment included in the building inspection computer aided system of the present invention;

Fig. 3 discloses a schematic diagram of the inspection item shortcut option interface generated in the front-end application program by the building inspection computer-aided system of the present invention;

Figure 4 and Figure 5 reveal a schematic diagram of the shortcut menu interface of the first type of inspection rules generated in the front-end application program of the building inspection computer-aided system of the present invention;

Figure 6 discloses a schematic diagram of the shortcut menu interface of the second type of inspection rules generated in the front-end application program by the building inspection computer-aided system of the present invention;

Fig. 7 discloses a schematic diagram of the shortcut menu interface of the third type of inspection rules generated in the front-end application program by the building inspection computer-aided system of the present invention;

Fig. 8 discloses a schematic diagram of the floating window interface of the building detection computer-aided system of the present invention reporting the judgment result of the program to the front-end application program;

Fig. 9 discloses a schematic diagram of the indicator mark indicating the program judgment result in the front-end application program shortcut menu interface of the building detection computer-aided system of the present invention;

Figure 10 shows a schematic diagram of the shortcut keys for newly added inspection items provided in the shortcut menu interface of the third type of inspection rules provided by the building inspection computer-aided system of the present invention;

Figure 11 is a schematic diagram showing the interface for generating a house inspection report generated by the building inspection computer-aided system of the present invention in a web browser;

Figure 12 is a schematic diagram showing the home page of the home inspection report automatically and intelligently generated by the building inspection computer-aided system of the present invention;

Fig. 13 is a schematic diagram showing the use situation of the computer-aided building inspection system of the present invention; and

Figure 14 discloses a flow chart of the implementation steps of the computer-aided building inspection of the present invention.

The present invention can be fully understood by the following examples, so that those skilled in the art can complete it, but the implementation of the present invention can not be limited by the following examples of implementation; the drawings of the present invention are not limited No limitation on size, dimension and scale is included, and the size, dimension and scale of the present invention are not limited by the drawings of the present invention during the actual implementation.

The word "preferred" in this article is non-exclusive and should be understood as "preferably but not limited to". order, the scope of the present invention should be determined only by the appended claims and their equivalents, not by the examples illustrated in the implementation; when the term "comprising" and its variations appear in the specification and claims, it is An open-ended term without a restrictive meaning that does not exclude other features or steps.

With the development of science and technology, the entire home inspection and check-in operation should be automated with the advancement of technology, especially Taiwan's specialized information and communication (ICT) technology. Therefore, this invention proposes and builds an automated smart house inspection check-in system Combining various technologies such as IoT inspection instrument, mobile communication network, central server, user equipment, program service platform, front-end application program (App), and artificial intelligence integration algorithm Together, it can completely standardize, systematize and automate the traditional home inspection and check-in operations.

Figure 1 reveals the system architecture view of the building detection computer-aided system of the present invention Figure; Figure 2 reveals the remote logic server and the hardware network device functional element view of the user equipment included in the computer-aided system for building inspection of the present invention; the computer-aided system for building inspection 10 of the present invention includes an application master-slave architecture (client-server model) and one or more logical servers 300 configured on the remote end or server end, and configured on the front end, client end or presentation layer ) multiple user equipment (user equipment, UE) 100, and multiple Internet of Things (IoT) detection instruments 200 connected to the user equipment 100 through a wireless local area network (WLAN) 240, preferably a wireless local area network It is formed by using Wi-Fi communication protocol or Bluetooth communication protocol.

IoT detection instrument 200 is for example but not limited to: ionizing radiation meter, radiation detector, concrete humidity meter, cement strength meter, wall detector, steel bar detector, sound amplifier, glass thickness gauge, ultrasonic wave, infrared level meter , magnetic field strength meter, water quality meter, chloride ion detector, tile drawing machine, air quality meter or ground penetrating radar and other non-destructive testing instruments, these IoT testing instruments 200 can be used on-site without destroying buildings. Check the condition of the building.

A building detection main control program 350 is installed on the logic server 300. The building detection main control program 350 includes an integrated algorithm program component 351 and a shortcut operation interface program component 353. The building detection main control program 350 is preferably a back-end logic Execute and manage the background, which is provided to the user to log in and operate through the front-end program installed on the user equipment 100. The logic server 300 communicates with a building detection database 360. The building detection database 360 can be a building and stored on the logic server 300, or additionally built and stored in another data layer or dedicated data server separated from the logic server 300, the building detection database 360 is used to store the With the assistance of the front-end program, the execution of the house inspection and check-in operation process, all the operations involved Business history (log), on-site images, raw data, inspection records, and basic data, so that they can be provided to platforms and applications at any time.

The user equipment 100 is preferably a mobile device, a desktop computer 120, a notebook computer 125, a smart phone 130 or a tablet device 135, etc., and the logical server 300 and multiple user equipment 100 are connected via wired or wireless The (wireless) Internet 250 establishes a communication link for two-way communication and data exchange. The user equipment 100 has a built-in processor unit 101, a communication module (communication module) 103, a storage unit (storage) 105 and Hardware units such as the display unit 107, as well as the front-end program 109 and the shortcut operation interface 111 generated in the front-end program 109, the front-end program 109 is installed on the user equipment 100 and loaded and executed by the processor unit 101, preferably For example but not limited to a web browser (web browser) or application program (App), the user operates the building detection main control program 350 on the logic server 300 by operating the front-end program 109 on the user device 100, and the display unit 107 is relatively Best is a monitor, an external monitor, or a touchscreen.

When the user 50 starts the front-end program 109 on the user device 100 and executes it through the processor unit 101, the front-end program 109 connects to the building detection main control program 350 to drive the shortcut operation interface program component 353 to execute, and in the front-end program 109, For example, a series of quick operation interfaces are generated in a web browser, and the quick operation interface 111 preferably refers to, for example but not limited to: a series of graphical user interfaces (GUIs), quick menus (quick menus) based on one-click operations. menu), shortcut operation page, shortcut list, shortcut keys, graphical shortcut operation interface, floating shortcut option menu window, drop-down option shortcut menu, shortcut menu interface, shortcut option interface, shortcut option menu or shortcut selection Buttons, etc., provide the user 50 with a simple click operation on the building detection main control program 350 through the shortcut operation interface 111 .

When the front-end program is provided to the user as a front-end user interface in the form of a dedicated application program, it can be applied to the two major device platforms of smart phones on the market, Android and iOS systems. In the part of the Android device, the application program uses Android Studio Developed by designing an editor, the remote server program and software system are preferably used such as but not limited to PHP (Personal Homepage Program) script codes to access the relational database MySQLDB to send and receive data. MySQLDB is a multi- The user and multi-threaded SQL database server can effectively arrange, file, and form a database software for more efficient subsequent query, organization, transmission and reception of data; in the part of iOS devices Preferably, the application program is developed by using basic components such as but not limited to Xcode and UIKit to develop and design an application program (application program, App) interface, and use Objective-C programming language or Swift programming language for development.

The building inspection computer-aided system and related program components proposed by the present invention, in addition to building the front-end program as a special application program, can also use software as a service (SaaS) or platform through external deployment (off-premises) As a service (PaaS) cloud technology construction, and through the web browser executed on the user equipment 100 as the front-end program and front-end user interface, it is directly provided to the user to operate and provide services to the user. In the case of SaaS or PaaS services, users only need to obtain permission to access and use the system of the present invention on the Internet, and users do not need to install applications on mobile devices.

The processor unit 101 inside the user equipment 100 will receive the commands issued by the user through the front-end program, and transmit the commands to the building detection main control program 350 on the logic server 300 through the communication module 103. The building detection main control program 350 will execute instructions accordingly, including for example but not limited to: accessing (access) building detection database 360, including reading (read) required data or writing (write) data, and downloading to the user device 100 of the client , upload the detection data to the built Object detection main control program 350 and execute integrated algorithm program component 351 to automatically assess whether the current condition of the building complies with the law. Between the front-end program 109 of the user equipment 100 and the building detection database 360 of the logic server 300, the communication protocol such as but not limited to HTTP/HTTPS is selected, and the data exchange and two-way communication are carried out in cooperation with the format such as but not limited to JSON.

The building detection main control program 350, the integrated algorithm program component 351, the shortcut operation interface program component 353, the front-end program 109 or other program components, and the remote server program or software system can be programmed and implemented using any programming language, for example But not limited to C, C++, C#, Java, VBScript, Macromedia Cold Fusion, COBOL, Microsoft Dynamics Server web pages, assembly languages, PERL, PHP, awk, Python, Visual Basic, SQL stored procedures, PL/SQL, any UNIX commands Description language, and Extensible Markup Language (XML) with various algorithms implemented in any combination of data structures, objects, procedures, routines, or other program elements.

The integrated algorithm program component 351 of the present invention uses the integrated algorithm (AI ensemble algorithm) as the calculation core, and the integrated algorithm includes three subprogram components: image recognition algorithm subprogram component: automatically recognizes the content of photos taken on the spot, Whether there is a detection instrument, and automatically determine what kind of detection instrument; read the built-in metadata of the photo to establish the real shooting date and location coordinates, etc., and independently create a log book; and general image processing to adjust the image quality; Automatically match with report content or detection items.

Rule-based Algorithm Subprogram Component: For the inspection of different buildings, based on the same rules and thresholds, it automatically judges whether each project is qualified, and the judgment results are universal and consistent. Reliable and objective, avoid human subjective judgment or human judgment error. Subprogram component of the data package arrangement algorithm: automatically integrate the instrument data and the input data of the surveyor, and automatically bring in all data packs, from the trustor, applicant, Appraiser, appraisal target, survey personnel, survey times, survey process, current status inspection form, current status photo collection, check list, identification results, and missing list, etc., after content identification, debugging, matching, and arrangement After that, a house inspection report will be automatically generated.

In one embodiment, the front-end programs, program components, modules, or software engines configured on the user equipment 100 can be implemented in the form of front-end programs 109 (App) or micro-apps (micro App), these front-end programs 109 or It is a micro-app that can be executed in the mobile operating system environment, and the mobile operating system covers, for example: Palm mobile operating system, Windows mobile operating system, Android operating system, Apple iOS, Blackberry operating system, etc.

The building detection computer-aided system of the present invention and the included program components are composed of various hardware in the physical equipment layer and application programs/software platforms/computer program products in the application program layer, according to the international open system Interconnect Communication Reference Model (OSI/RM) architecture, program components are software application services that execute and operate on layer 7 (application layer) of the OSI/RM architecture, and software application services at layer 7 can choose layer 4 independently Various communication protocols in the transport layer, forming data packets at the third layer network layer and determining the transmission path, after passing through the second layer data link layer plus logical link control (LLC) and media access control (MAC), and Various devices on the first physical layer, such as but not limited to multiple user equipment 100 and logical server 300, etc., establish required uplink and downlink communication links (upload and download communication links).

Figure 3 discloses a schematic diagram of the inspection item shortcut option interface generated in the front-end application program by the building inspection computer-aided system of the present invention; the system of the present invention can be used in the front-end application program after executing the shortcut operation interface program component 353 from the remote end The inspection item shortcut option interface 401 shown in FIG. 3 is generated to provide users with a click-based operation to easily select the items to be inspected, such as but not limited to doors, windows, decoration surfaces, bathrooms, kitchens, etc. The user only needs to simple click That's it.

Figure 4 and Figure 5 reveal a schematic diagram of the shortcut menu interface of the first type of inspection rules generated in the front-end application program by the building inspection computer-aided system of the present invention; in this embodiment, the user clicks, for example but not limited to, the decoration surface To check the current status of the project, the system of the present invention will provide the first type of inspection rule shortcut menu interface 403 shown in Figure 4 and Figure 5 in the front-end application program for the user to operate. The first type of inspection rule shortcut menu interface 403 provides Quick operation functions such as drop-down menus and shortcut selection buttons are provided for users to operate. In this embodiment, the user can further select the attribute, location, floor, type, etc. of the decoration surface, or directly take a photo and upload it. The building inspection main control program 350 will gradually provide inspection rules in the first type of inspection rule shortcut menu interface 403 in the form of questions, and guide users to practice the standard inspection process.

When the user chooses to take a photo through the shortcut menu interface 403 of the first type of inspection rule and uploads the photo to the logic server 300, the integrated algorithm program component 351 will execute the subprogram component of the image recognition algorithm to automatically identify the content of the photo and detect whether it appears instrument, and automatically determine what kind of testing instrument it is, and read the built-in metadata of the photo to establish the real shooting date and location coordinates, etc., and independently create a log book, and adjust the image quality, and automatically compare the photo and report content or testing items match.

Figure 6 discloses a schematic diagram of the second type of inspection rule shortcut menu interface generated in the front-end application program by the building detection computer-aided system of the present invention; in this embodiment, the system of the present invention will provide the front-end application program shown in Figure 6 The second type of inspection rule shortcut menu interface 405 provides the user with an item such as but not limited to the door to implement the status check. The second type of inspection rule shortcut menu interface 405 is similar to the first type of inspection rule shortcut menu interface 403. It also provides Quick operation functions such as drop-down menus and shortcut selection buttons, and provide inspection rules in the form of questions, And guide users to practice the standard inspection process.

Fig. 7 discloses a schematic diagram of the shortcut menu interface of the third type of inspection rules generated in the front-end application program by the building detection computer-aided system of the present invention; in this embodiment, the system of the present invention will provide the front-end application program as shown in Fig. The shortcut menu interface 407 of the third type of inspection rule provides users with the implementation of current status inspection for such as but not limited to the item of sanitary ware. The shortcut menu interface 407 of the third type of inspection rule also provides shortcut operation functions such as drop-down menus and shortcut selection buttons. It also provides inspection rules in the form of questions, and guides users to practice the standard inspection process.

Fig. 8 reveals the schematic diagram of the suspended window interface of the computer-aided building detection system of the present invention reporting the judgment result of the program to the front-end application program; The FINISH button in the short-cut menu interface 405 for the type of inspection rule and the short-cut menu interface 407 for the third type of inspection rule drives the integrated algorithm program component 351 on the remote logic server 300 .

The integrated algorithm program component 351 will automatically execute the project qualification judgment rule algorithm subprogram component, and according to the user’s input, the detection signal input of the on-site IoT detection instrument 200 and other information, even for different buildings, it can be based on the same rule and The threshold automatically judges whether the current status of the item is qualified or unqualified, and reports the judgment result of the program to the front-end application program and the user through the floating window interface 409 shown in FIG. 8 .

Fig. 9 discloses a schematic diagram of the indicator mark indicating the program judgment result in the front-end application shortcut menu interface of the computer-aided system for building detection of the present invention; when the integrated algorithm program component 351 executed at the remote end is reported to the front-end application program and the user After the program judges the result, in the shortcut menu interface 403 of the first type of inspection rule, the shortcut menu interface 405 of the second type of inspection rule, and the shortcut menu interface 407 of the third type of inspection rule, a prominent indicator mark 411 will also be displayed in the shortcut menu. The program judgment result is correspondingly marked in the interface, as shown in Figure 9.

Figure 10 shows a schematic diagram of the shortcut keys for newly added inspection items provided in the third type of inspection rule shortcut menu interface by the computer-aided system for building inspection of the present invention; the system of the present invention can provide shortcut buttons for newly added inspection items in the shortcut menu interface , providing the user with a shortcut menu interface through operation, such as the first type of inspection rule shortcut menu interface 403, the second type of inspection rule shortcut menu interface 405, and the third type of inspection rule shortcut menu interface 407, and the user can add it independently according to the current situation. New inspection items, FIG. 10 shows the shortcut keys 413 for new inspection items provided by the system in the shortcut menu interface 407 of the third type of inspection rules.

Figure 11 is a schematic diagram showing the interface for generating a home inspection report generated by the computer-aided system for building inspection of the present invention in a web browser; Figure 12 is a schematic diagram showing the home inspection report automatically and intelligently generated by the computer-aided system for building inspection of the present invention The schematic diagram of the front page; the building detection computer-aided system 10 of the present invention is built based on software-as-a-service (SaaS) and platform-as-a-service (PaaS) cloud technologies, and can use the browser executed on the user equipment 100 at the front-end display layer As a front-end program 109, various system interfaces are generated on the browser, such as but not limited to the interfaces disclosed in Fig. Start the browser on the user device 100, and enter the correct Uniform Resource Locator (URL) in the address bar to log in to the system.

As shown in FIG. 11, when the user completes the home inspection of the building by operating the interface shown in FIG. 3 to FIG. 10 and using the IoT testing instrument 200, the system will display and generate in the browser of the user device House inspection report interface 415, after the user enters the basic information of the project in the generate house inspection report interface 415, presses the shortcut button 417 to generate a house inspection report, and the integrated algorithm program component 351 will automatically execute the subroutine of the data package arrangement algorithm components to automatically integrate the instrument Data and survey personnel input information, and automatically bring into all data packs, from the trustee, applicant, appraiser, subject of appraisal, survey personnel, number of surveys, survey process, current status inspection form, current status After content identification, error debugging, matching, and arrangement, a house inspection report is automatically generated, as shown in Figure 12.

Figure 13 is a schematic diagram showing the use situation of the computer-aided building detection system of the present invention; when the system is in use, the user carries a user device installed with a front-end program, such as a smart phone 130 or a notebook computer 125, to the building detection site , and in an environment that can be connected to the Internet, through the front-end application program, log in to the building detection main control program 350 on the remote logic server 300, and establish a regional communication link between the smart phone 130 and all IoT detection instruments on site. The IoT detection instrument of the embodiment includes, for example but not limited to, a high-resolution camera 201, a sound amplifier 202, a glass thickness gauge 203, an air quality meter 204, an ionizing radiation meter 205, a radiation detector 206, an infrared level meter 207, and a chloride ion detector 208 et al.

Users use these detectors to start various inspections on the building structure 511. The detectors transmit the inspection results of the instruments to the front-end application program of the smart phone 130, and the front-end application program uploads the inspection results of the instruments to the remote logic server 300 for building inspection The main control program 350 and the integrated algorithm program component 351 will automatically execute the calculation and judge whether the current status of the project is qualified or unqualified, and report the result of the program judgment to the front-end application program of the smart phone 130 and the user.

Figure 14 discloses a flow chart of the implementation steps of the computer-aided building inspection method of the present invention; in summary, the computer-aided building inspection method 600 of the present invention preferably includes the following steps: installing a shortcut operation interface on a remote logic server The building inspection main control computer program product of the program element (step 601); provide at least one Internet of Things inspection instrument to perform non-destructive inspection on the building structure and generate instrument inspection results (step 603); execute on the user equipment front end The computer program product is operated by the user to drive the shortcut operation interface program element to generate a shortcut operation interface in the front-end computer program product, so that the user can perform at least one inspection item on the building structure by operating the shortcut operation interface and produce manual inspection results (step 605); and upload the manual inspection results and the instrument inspection results to the logic server, and the building inspection master computer program product automatically generates the house inspection report (step 607) .

To sum up, the present invention uses various non-destructive IoT inspection electronic instruments to connect to the cloud system platform of the house inspection check-in project, and uses various terminal devices such as mobile phones, tablet computers, and notebook computers to build on web pages and mobile phones. App as a solution to home inspection problems.

The present invention utilizes the invented intelligent system of house inspection and check-in to perform a systematic terminal processing on the traditional complicated house inspection and check-in operation, and then uses artificial intelligence algorithm to automatically produce the standards of inspection (inspection) items Format, including building-related inspection items, building hardware and software details, hydropower engineering, five major pipelines, fire engineering, environmental engineering including water quality, air, sunlight, noise, radiation, etc., weak current engineering, leaking wall cancer, all building problems Details.

The current survey personnel only need to use various non-destructive testing instruments, and the test results are transmitted to the webpage and mobile APP system of the invented device, and the invented software automatically generates a detailed house inspection report that can be exported to solve the uniformity and system of house inspections Planning.

The present invention also has the following features: (1) Automatic smart house inspection check-in system; (2) can connect all IoT electronic house inspection instruments; (3) Automatically judge and output compliant house inspection reports, inspection items, editing operations , output; (4) It can be used directly by on-site inspection operators; (5) It can be connected to on-site operation mobile phones, computers, tablets and all electronic instrument systems and can be connected to all electronic inspection systems.

The above embodiments of the present invention can be arbitrarily combined or replaced with each other, so that Deriving more implementation forms, but none of them departing from the scope of protection intended by the present invention, hereby further provide more embodiments of the present invention as follows:

Embodiment 1: A building detection computer-aided system, which includes: a logic server, which is installed with a building detection master computer program product including a shortcut operation interface program element; and a user device, which communicates with the logic server link, and provide a front-end computer program product for the user to operate, so as to drive the shortcut operation interface program component to generate a shortcut operation interface in the front-end computer program product, and the user operates the shortcut operation interface to execute at least 1. Inspection of inspection items, and upload the manual inspection results to the logic server, and the building inspection master computer program product will automatically generate a house inspection report.

Embodiment 2: The computer-aided system for building detection as described in Embodiment 1, further comprising: the logic server accesses the building detection database; Destructive testing, and generating instrument testing results; and the user equipment, which is in communication with the at least one IoT testing instrument and the logic server, and uploading the manual testing results and the instrument testing results to the logic server , the house inspection report is automatically generated by the building inspection main control computer program product.

Embodiment 3: The building detection computer-aided system as described in Embodiment 1, wherein the building detection main control program also includes integrated algorithm program components and shortcut operation interface program components, wherein the integrated algorithm program components also include image recognition Algorithm subroutine components, item eligibility judgment rule algorithm subroutine components, and data package arrangement algorithm subroutine components.

Embodiment 4: The computer-aided system for building inspection as described in Embodiment 3, wherein the image recognition algorithm subroutine component will automatically identify the content of the photo taken by the building structure after execution, whether there is a detection instrument, And automatically determine what kind of testing instrument, and read The built-in metadata of the photo establishes the shooting date and location coordinate information, and independently creates the history, adjusts the image quality of the photo, and automatically matches the photo with the manual inspection result or the instrument inspection result.

Embodiment 5: The computer-aided system for building detection as described in Embodiment 3, wherein after the subroutine component of the subroutine component of the algorithm for determining whether the item is qualified is judged, based on the same rules and thresholds, it automatically judges whether the at least one detection item is qualified, so that The judgment results are unified and consistent.

Embodiment 6: The computer-aided system for building inspection as described in Embodiment 3, wherein the subroutine component of the data package arrangement algorithm will automatically integrate the manual inspection results and the instrument inspection results as input data after execution, and save Take the building inspection database to automatically bring in all the data packages, from the client, the applicant, the appraiser, the subject of appraisal, the survey personnel, the number of current surveys, the current survey process, the current status inspection form, the current status photo collection, point cross The checklist, appraisal result, and missing list, etc., will automatically generate the house inspection report after content identification, debugging, matching, and arrangement.

Embodiment 7: The building detection computer-aided system as described in Embodiment 1, wherein the shortcut operation interface is selected from a graphical user interface, a shortcut menu, a shortcut operation web page, a shortcut list, a shortcut key, and a graphical shortcut operation interface , one of a floating convenient option menu window, a drop-down option convenient menu, a shortcut menu interface, a shortcut option interface, a shortcut option menu, and a shortcut selection button.

Embodiment 8: The building inspection computer-aided system as described in Embodiment 1, wherein the front-end computer program product is selected from one of an application program and a web browser.

Embodiment 9: A building detection computer-aided user equipment, which is connected with a logic server installed with a building detection main control computer program product including a shortcut operation interface program element. The building detection computer-aided user equipment includes: display unit; and processing a device unit, which executes the front-end computer program product for the user to operate, so as to drive the shortcut operation interface program component to generate a shortcut operation interface in the front-end computer program product and the display unit, and the user operates the shortcut operation interface to a The building structure is inspected for at least one inspection item, and the manual inspection result is uploaded to the logic server, and a house inspection report is automatically generated by the building inspection main control computer program product.

Embodiment 10: A computer-aided method for building detection, which includes: installing a building detection master computer program product including a shortcut operation interface program element on a remote logic server; providing at least one Internet of Things detection instrument to monitor the building Perform non-destructive testing on object structures and produce instrument testing results; execute front-end computer program products on user equipment for user operations, so as to drive the shortcut operation interface program components to generate shortcut operation interfaces in the front-end computer program products, so that The user performs inspection of at least one inspection item on the building structure by operating the shortcut operation interface, and generates manual inspection results; and uploads the manual inspection results and the instrument inspection results to the logic server, and the building The inspection master computer program product automatically generates the house inspection report.

The various embodiments of the present invention can be combined or replaced arbitrarily with each other, thereby deriving more implementation forms, but none of them depart from the intended protection scope of the present invention, and the definition of the protection scope of the present invention is fully defined by the patent scope of the present invention application The recorder shall prevail.

600: The computer-aided method for building detection of the present invention

601-607: Implementation steps

Claims (10)

A building detection computer-aided system, which includes: A logical server installed with a building inspection main control computer program product including a shortcut operation interface program element; and A user device, which communicates with the logical server, and provides a front-end computer program product for a user to operate, so as to drive the shortcut operation interface program component to generate a shortcut operation interface in the front-end computer program product, the The user performs inspection of at least one inspection item on a building structure by operating the shortcut operation interface, and uploads a manual inspection result to the logic server, and a house inspection report is automatically generated by the building inspection main control computer program product Book. The building detection computer-aided system as described in claim 1 also includes: The logical server accesses a building detection database; At least one Internet of Things testing instrument, which is used for non-destructive testing of a building structure and produces an instrument testing result; and The user equipment is in communication with the at least one Internet of Things detection instrument and the logic server, and uploads the manual detection result and the instrument detection result to the logic server, and the building detection main control computer program product automatically Generate the home inspection report. The building detection computer-aided system as described in claim 1, wherein the building detection main control program also includes an integrated algorithm program component and a shortcut operation interface program component, wherein the integrated algorithm program component also includes an image recognition calculation A method subroutine component, an item qualification judgment rule algorithm subroutine component and a data package arrangement algorithm subroutine component. The computer-aided system for building detection as described in Claim 3, wherein the image recognition algorithm subroutine component will automatically identify the content of a photo taken on the building structure after execution, whether there is a detection instrument, and automatically judge For what kind of testing equipment, and read the built-in metadata of the photo to create shooting date and location coordinate information, and independently create a history, and adjust the image quality of the photo, and compare the photo with the manual inspection result or the instrument inspection The results are automatically matched. The computer-aided system for building inspection as described in claim 3, wherein after the subroutine component of the item qualification judgment rule algorithm is executed, it automatically judges whether the at least one inspection item is qualified based on the same rules and thresholds, so that the judgment results are unified Sex and Consistency. The computer-aided system for building inspection as described in claim 3, wherein the subprogram component of the data package programming algorithm will automatically integrate the manual inspection results and the instrument inspection results as input data after execution, and access the building inspection The database automatically brings in all information packages, from the client, the applicant, the appraiser, the subject of appraisal, the survey personnel, the number of current surveys, the current survey process, the current situation inspection form, the current situation photo collection, the item list, and the appraisal results , and missing tables, etc., after content identification, debugging, matching, and arrangement, the house inspection report is automatically generated. The building detection computer-aided system as described in claim 1, wherein the shortcut operation interface is selected from a graphical user interface, a shortcut menu, a shortcut operation web page, a shortcut list, a shortcut button, and a graphical shortcut One of an operation interface, a floating convenient option menu window, a pull-down option convenient menu, a shortcut menu interface, a shortcut option interface, a shortcut option menu, and a shortcut selection button. The building detection computer-aided system as described in claim 1, wherein the front-end computer program product is selected from one of an application program and a web browser. A computer-aided user equipment for building inspection, which is in communication with a logic server installed with a building inspection main control computer program product including a shortcut operation interface program element, the computer-aided user equipment for building inspection includes: a display unit; and A processor unit, which executes a front-end computer program product for a user to operate, so as to drive the shortcut operation interface program element to generate a shortcut operation interface in the front-end computer program product and the display unit, and the user operates the shortcut The operation interface is used to perform inspection of at least one inspection item on a building structure, and a manual inspection result is uploaded to the logic server, and a house inspection report is automatically generated by the building inspection main control computer program product. A computer-aided method for building detection, comprising: Installing a building detection main control computer program product including a shortcut operation interface program component on a logic server at the remote end; Provide at least one Internet of Things testing instrument to perform non-destructive testing on a building structure and generate an instrument testing result; Executing a front-end computer program product on a user device for operation by a user, so as to drive the shortcut operation interface program component to generate a shortcut operation interface in the front-end computer program product, so that the user can operate the shortcut operation interface Perform an inspection of at least one inspection item on the building structure and generate a manual inspection result; and The manual inspection result and the instrument inspection result are uploaded to the logic server, and the house inspection report is automatically generated by the building inspection main control computer program product.

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