CN210168130U - Monitoring system for construction progress and site image - Google Patents

Abstract

The utility model discloses a monitored control system of construction progress and scene image, including video acquisition system, transmission system, panoramic video service system and management platform system, video acquisition system is used for realizing the all-round collection of construction scene image, transmission system is used for the real-time transmission to panoramic video service system of the surveillance video information who gathers video acquisition system, panoramic video service system then is used for flowing the processing such as amalgamation and storage to the surveillance video information who obtains, form the video stream, management platform system then is used for carrying out the real-time concatenation to the video stream that obtains and forms the panoramic picture, management platform system carries out data communication with panoramic video service system. According to the method and the system, a set of unified and complete monitoring system is established according to the requirements of field monitoring, the shooting and the generation of the panoramic image are realized, the project progress information is integrated, the construction progress information is uniformly presented on the platform through remote monitoring, the construction field management is standardized, and the emergency processing capacity is improved.

Description

Monitoring system for construction progress and site image

Technical Field

The utility model relates to a video monitoring system specifically is a monitored control system of construction progress and scene image.

Background

With the rapid development of video monitoring, although the traditional webcam basically meets the monitoring requirements of users on ultra high definition, all weather and ultra long distance, due to the narrow field of view, a large number of monitoring dead angles appear, and only limited scenes can be monitored. For a particularly wide construction site scene, a plurality of cameras are generally needed to monitor the whole picture, a plurality of screens are needed or pictures are needed to be switched continuously during monitoring, and the solution often disperses the attention of monitoring personnel, so that the accidental/sudden events cannot be found and tracked in time, and the use is inconvenient. Along with the continuous refinement of the monitoring industry market, the requirement of panoramic monitoring is gradually highlighted.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a monitored control system of construction progress and scene image to solve the problem of proposing among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a monitoring system for construction progress and site images comprises a video acquisition system, a transmission system, a panoramic video service system and a management platform system, wherein the video acquisition system is used for realizing the omnibearing acquisition of construction site images, the transmission system is used for transmitting monitoring video information acquired by the video acquisition system to the panoramic video service system in real time, the panoramic video service system is used for carrying out stream merging and storage processing on the acquired monitoring video information to form a video stream, the management platform system is used for splicing the acquired video streams in real time to form a panoramic picture, and playing, controlling, rendering and managing are carried out, the video acquisition system comprises a plurality of panoramic devices, the panoramic devices are multi-view high-definition network cameras, the panoramic video service system is connected with the video acquisition system through a transmission system, and the management platform system is in data communication with the panoramic video service system.

As a further aspect of the present invention: the transmission system is a video transmission network, and the video transmission network is a wired or wireless network.

As a further aspect of the present invention: the management platform system comprises a switch, a streaming media server and a client which are connected through a network.

As a further aspect of the present invention: the client comprises a web client and a mobile phone terminal.

As a further aspect of the present invention: the system also comprises an equipment management module, an image management module, an engineering progress management module, a statistical analysis module and a system management module which are controlled by the management platform system.

Compared with the prior art, the beneficial effects of the utility model are that: according to the demand of on-site monitoring, establish one set of unified, complete monitored control system, realize the shooting of panoramic picture, generate to incorporate engineering progress information, present in unison on the platform through remote monitoring, be favorable to standardizing job site management, improve emergency treatment ability, specifically as follows:

(1) wired and wireless transmission is supported, and flexible arrangement can be realized according to the construction phenomenon;

(2) the 720-degree panoramic image capture can provide more comprehensive monitoring video information and eliminate the monitoring blind area compared with the traditional single-viewpoint monitoring;

(3) the management platform system can simultaneously support the access of the web client and the mobile phone, so that the use is more convenient;

(4) the project progress information and the field video information can be displayed by selecting image partitions;

(5) and data can be filled and reported through a mobile phone end and output to a management platform system, and project progress information can be automatically updated.

Drawings

Fig. 1 is a schematic structural diagram of a construction progress and site image monitoring system.

Fig. 2 is a control schematic diagram of a management platform system in a construction progress and site image monitoring system.

In the figure: 100-video acquisition system, 101-panoramic device, 200-transmission system, 201-video transmission network, 300-panoramic video service system, 301-panoramic video server, 400-management platform system, 401-switch, 402-streaming media server, 403-client.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1

Referring to fig. 1, in an embodiment of the present invention, a monitoring system for construction progress and site images includes a video acquisition system 100, a transmission system 200, a panoramic video service system 300 and a management platform system 400, in this embodiment, the video acquisition system 100 is used to realize all-around acquisition of construction site images, in this embodiment, the video acquisition system 100 includes a panoramic device 101 installed at each field of view of a construction site, preferably, the panoramic device 101 is a multi-view high-definition network camera, which can complete 360 ° to 360 ° all-around monitoring image acquisition of the whole field of view, which largely makes up the range of view angles that can be reached by multiple traditional cameras, and compared with the previous monitoring of a single view point, can provide more comprehensive monitoring video information, eliminate blind areas of monitoring, the transmission system 200 is used to transmit the monitoring video information acquired by the video acquisition system 100 to the panoramic video service system 300 in real time, the panoramic video service system 300 is configured to perform processing such as stream merging and storage on the obtained surveillance video information to form a video stream, and preferably, the panoramic video service system 300 is a panoramic video server 301, and the management platform system 400 is configured to splice the obtained video streams in real time to form a panoramic image, and perform operations such as playing, controlling, rendering, and managing, where the panoramic video service system 300 is connected to the video acquisition system 100 through the transmission system 200, and the management platform system 400 performs data communication with the panoramic video service system 300.

Example 2

Referring to fig. 1, in an embodiment of the present invention, a monitoring system for construction progress and site images, the transmission system 200 is a video transmission network 201, where the video transmission network 201 is a wired or wireless network, which may be determined by actual conditions of a construction site, the wired network mode is, for example, using an optical cable, an optical fiber, etc. to realize transmission of monitoring video information, and for the wireless network, a 4G module may be integrated on a main control board of the panoramic apparatus 101 to realize transmission of monitoring video information, and certainly, not limited to only the 4G module.

The management platform system 400 comprises a switch 401, a streaming media server 402 and a client 403 which are connected through a network, wherein the streaming media server 402 can collect, cache and schedule video streams and input the video streams into the client 403 for playing, and the client 403 comprises a web client and a mobile phone end, namely, videos can be played on the web client and also can be played on the mobile phone end, so that a construction management unit can conveniently see engineering progress images and engineering progress information anytime and anywhere.

Example 3

Referring to fig. 2, in an embodiment of the present invention, a monitoring system for construction progress and site images further includes an equipment management module, an image management module, an engineering progress management module, a statistical analysis module, and a system management module controlled by the management platform system 400.

Specifically, the method comprises the following steps: the device management module is mainly directed to management performed by the panoramic device 101.

(1) The technical state, maintenance and maintenance condition records in the operation process of the equipment are known by establishing an equipment information base, (2) grouping and corresponding configuration of each equipment are carried out, such as: ID. MAC, name, version, etc.; (3) the online control management of the equipment comprises power supply and outage, startup and shutdown, restart, mode switching and the like; (4) carrying out defect report, tracking and statistics on equipment, and processing emergency accidents; (5) inquiring and counting various information including a three-rate report of the equipment, an equipment maintenance cost report, an equipment state report, an equipment resume report and the like.

An image management module: the management of the monitored image is mainly performed,

setting a period for shooting a monitoring image; (2) monitoring the time, directory, etc. of image storage; (3) managing the splicing of the single-path images into the panoramic image, wherein the management comprises the setting of a spliced template and related parameters and the like; (4) setting parameters including slice management and image display; (5) and displaying all panoramic image information including whether the information is displayed at the front end, browsing addresses, starting time, shooting time, splicing time, uploading time and other related information.

The project progress management module: (1) defining engineering information corresponding to each shooting scene, wherein the engineering information comprises shooting point names, project names, positions of images where projects are located, areas and character descriptions; (2) defining the format of the daily report, the weekly report and the monthly report of each engineering project; (3) and the mobile phone end generates a relevant background record after being filled in according to the relevant progress template.

A statistical analysis module: the method can summarize or perform statistical analysis on one or more data items to support an image-text visual display form and make reference for decision making of management personnel.

A system management module: (1) through carrying out various settings to the system, guarantee the normal operating of system, specific function can set up as follows: department/organization management, user management, role management, authority management, user authentication management, parameter setting, system logs, data dictionaries, data backup, and the like.

Wherein, department/organization management: the department/organization management is mainly to manage the affiliated units of the system users, can add department personnel, and when creating the system users, the department to which the users belong must be appointed;

user management: adding system login users, modifying user information, forbidding users and the like;

and (3) role management: setting authority sets owned by roles according to different management levels of system users, and endowing the authority sets to the users by role names;

and (3) authority management: rights management plays a very important role in system security and information security, and in the system, because of the sensitivity of information, it is impossible to provide all the information collected by the system to each department, and users of different organizations are required to see different information for the same functional module. Therefore, the authority management is divided into two types, wherein one type is an access authority, also called a function authority, which limits whether a user can use the module, and the other type is a data authority, namely, on the basis of the access authority, the information which can be seen by a login user is limited;

user authentication management: it is an important issue for the present system to ensure the validity of the identity of the application system visitor. In order to ensure that the acquired original information is reliable and credible, the credit data acquisition terminal must provide identity authentication for the data provider. The logged-in user can only perform various data acquisition and application function operations after being confirmed by the identity authentication system. The identity authentication system reserves a CA interface, so that the identity authentication system can be smoothly upgraded to the identity authentication based on PKI;

setting parameters: providing parameter settings of a credit information system and services, such as data uploading file format setting, system default information classification and the like;

system logging: the system operation log contains: recording the operation of a system user; recording the system operation; recording system abnormal error reporting information; the page provides a multi-condition query function (such as time, unit, user and operation type), and the user can freely combine query conditions to perform screening query. The query result provides a printout or export (Excel) function;

a data dictionary: the data dictionary is a comparison table of codes and names, consists of data dictionary items, data sub-items and names and is more intuitive when a user operates the system. Most data of the system data dictionary items are input into the system when the system is initialized, and a user can add, modify and delete commodity data dictionary items according to requirements;

data backup: data is an important resource of a system, and a daily backup system is established for frequent backup. When the data is damaged, the data can be recovered from the backup data. The function provides manual remote backup of the database to a hard disk designated by the server;

and (5) making a daily backup system and developing a data backup habit. The mode of incremental backup, the mode of automatic backup and the mode of timing backup can be selected.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (5)

1. A system for monitoring construction progress and site images, comprising:

the system comprises a video acquisition system (100) for realizing the omnibearing acquisition of construction site images;

the transmission system (200) is used for transmitting the monitoring video information acquired by the video acquisition system (100) to the panoramic video service system (300) in real time;

the panoramic video service system (300) is used for carrying out stream merging and storage processing on the obtained monitoring video information to form a video stream;

a management platform system (400) for splicing the obtained video streams in real time to form a panoramic picture, playing, controlling, rendering and managing,

the method is characterized in that:

the panoramic video service system (300) is connected with the video acquisition system (100) through the transmission system (200), the management platform system (400) is in data communication with the panoramic video service system (300), the video acquisition system (100) comprises a plurality of panoramic devices (101), and the panoramic devices (101) are multi-view high-definition network cameras.

2. A construction progress and site image monitoring system as claimed in claim 1, wherein the transmission system (200) is a video transmission network (201), and the video transmission network (201) is a wired or wireless network.

3. A construction progress and live image monitoring system according to claim 1 or 2, wherein said management platform system (400) comprises a switch (401), a streaming server (402) and a client (403) connected through a network.

4. A construction progress and site image monitoring system according to claim 3, characterized in that said client (403) comprises a web client and a mobile phone client.

5. A construction progress and site image monitoring system according to claim 1 or 2 or 4, further comprising an equipment management module, an image management module, a project progress management module, a statistical analysis module and a system management module controlled by the management platform system (400).

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