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CN-121999765-A - Engineering construction auxiliary system, method, storage medium and electronic equipment

CN121999765ACN 121999765 ACN121999765 ACN 121999765ACN-121999765-A

Abstract

The present disclosure relates to the field of intelligent construction, and in particular, to an engineering construction assistance system, an engineering construction assistance method, a storage medium, and an electronic device. The engineering construction auxiliary system comprises terminal equipment, a cloud data platform, a decision module and an edge computing node, wherein the terminal equipment comprises voice acquisition equipment used for acquiring voice instructions and transmitting the voice instructions to the cloud data platform and AR equipment used for displaying received target construction auxiliary information, the cloud data platform comprises a voice recognition engine used for analyzing the voice instructions to obtain the engineering auxiliary instructions, the decision module is used for generating initial construction auxiliary information and transmitting the initial construction auxiliary information to the edge computing node, and the edge computing node comprises a real-time positioning engine used for converting a coordinate system to obtain the target construction auxiliary information and transmitting the target construction auxiliary information to the AR equipment. The engineering construction auxiliary system provided by the disclosure can realize the intellectualization and visualization of the engineering construction process, and improves the efficiency, the accuracy and the synergy of the construction process.

Inventors

  • XIAO BIN
  • QI LINPAN
  • Xing Ruijiao
  • FENG YUXIANG
  • SHEN YAJUN
  • LIU JUNTAO
  • Sun Xiasi
  • ZHAO WENXIA

Assignees

  • 中国电建集团西北勘测设计研究院有限公司

Dates

Publication Date
20260508
Application Date
20260320

Claims (10)

  1. 1. An engineering construction assistance system, comprising: The terminal equipment comprises voice acquisition equipment and Augmented Reality (AR) equipment, wherein the voice acquisition equipment is used for acquiring voice instructions and transmitting the voice instructions to a cloud data platform; The cloud data platform comprises a voice recognition engine and a decision module, wherein the voice recognition engine is used for analyzing the voice instruction to obtain an engineering auxiliary instruction, and the decision module is used for generating initial building auxiliary information under a BIM model coordinate system corresponding to the auxiliary display instruction when the engineering auxiliary instruction is an auxiliary display instruction and sending the initial building auxiliary information to an edge computing node; And the edge computing node comprises a real-time positioning engine, and is used for converting the received initial building auxiliary information into target building auxiliary information under an AR equipment coordinate system and sending the target building auxiliary information to the AR equipment.
  2. 2. The engineering construction assistance system of claim 1, wherein the speech recognition engine is configured according to the steps of: Creating an initial speech recognition model; Constructing an engineering field word stock, and training the initial speech recognition model by utilizing the engineering field word stock to obtain a target speech recognition model; And constructing a voice training set under construction environment noise, and performing model calibration on the target voice recognition model by utilizing the voice training set to obtain the voice recognition engine.
  3. 3. The engineering construction assistance system of claim 1, wherein the cloud data platform further comprises: the BIM model database is used for storing BIM model data corresponding to a BIM model of a construction project; And the construction management database is used for storing construction management data associated with a sub-model of the BIM model, wherein the sub-model is obtained by splitting the BIM model according to a construction stage.
  4. 4. The engineering construction assistance system of claim 3, wherein the terminal device further comprises a positioning device, the real-time positioning engine configured to: Acquiring BIM model data in the BIM model database, and Acquiring three-dimensional scene data acquired by the positioning equipment; Spatially aligning the three-dimensional scene data with the BIM model data, and establishing a conversion relation between a BIM model coordinate system, a field coordinate system and an AR equipment coordinate system; And converting the coordinate system according to the conversion relation.
  5. 5. The engineering construction assistance system of claim 1, wherein the decision module is further configured to: And executing the auxiliary operation instruction when the engineering auxiliary instruction is the auxiliary operation instruction.
  6. 6. A construction assist method applied to the construction assist system according to any one of claims 1 to 5, characterized by comprising: when a voice command is acquired, analyzing the voice command to obtain an engineering auxiliary command; When the engineering auxiliary instruction is an auxiliary display instruction, generating initial construction auxiliary information under a BIM model coordinate system corresponding to the auxiliary display instruction; Converting the initial building auxiliary information into a coordinate system to obtain target building auxiliary information under an AR equipment coordinate system; displaying the target construction auxiliary information through the AR equipment to assist in engineering construction.
  7. 7. The engineering construction assistance method of claim 6, wherein the assistance display instructions include one or more of BIM model interaction instructions, construction management data call instructions, equipment parameter call instructions, equipment virtual pre-assembly instructions, positioning navigation instructions.
  8. 8. The method according to claim 6, wherein the auxiliary operation instruction is executed when the auxiliary operation instruction is an auxiliary operation instruction, wherein the auxiliary operation instruction further includes an auxiliary operation instruction including one or more of a device parameter labeling instruction, an engineering acceptance instruction, and an acceptance problem labeling instruction.
  9. 9. A computer readable storage medium, on which a computer program is stored, characterized in that the computer program, when being executed by a processor, implements the engineering construction assistance method according to any one of claims 6 to 8.
  10. 10. An electronic device, comprising: One or more processors; storage means for storing one or more programs which when executed by the one or more processors cause the one or more processors to implement the engineering construction assistance method of any one of claims 6 to 8.

Description

Engineering construction auxiliary system, method, storage medium and electronic equipment Technical Field The present disclosure relates to the field of intelligent construction, and in particular, to an engineering construction assistance system, an engineering construction assistance method, a storage medium, and an electronic apparatus. Background The new energy engineering refers to a system engineering for realizing clean power production and efficient utilization by utilizing renewable energy sources such as wind energy, solar energy and the like and adopting technologies such as wind power, photovoltaic, energy storage and the like. The new energy engineering has the following conditions of large engineering scale, high construction precision requirement, complex construction environment, multiple extreme environments such as desert, plateau and the like, obvious influence by meteorological conditions, high multi-major cooperative requirement and the like, and relates to a plurality of fields such as civil engineering, machinery, electricity and the like. The traditional construction method relies on constructors to judge two-dimensional drawings and experience, and is easy to cause installation deviation. It should be noted that the information disclosed in the above background section is only for enhancing understanding of the background of the present disclosure and thus may include information that does not constitute prior art known to those of ordinary skill in the art. Disclosure of Invention The invention aims to provide an engineering construction auxiliary system, an engineering construction auxiliary method, a storage medium and electronic equipment, and aims to realize the intellectualization and visualization of an engineering construction process and improve the efficiency, the accuracy and the synergy of the construction process. Other features and advantages of the present disclosure will be apparent from the following detailed description, or may be learned in part by the practice of the disclosure. According to an aspect of the present disclosure, there is provided an engineering construction assistance system including: The terminal equipment comprises voice acquisition equipment and Augmented Reality (AR) equipment, wherein the voice acquisition equipment is used for acquiring voice instructions and transmitting the voice instructions to a cloud data platform; The cloud data platform comprises a voice recognition engine and a decision module, wherein the voice recognition engine is used for analyzing the voice instruction to obtain an engineering auxiliary instruction, and the decision module is used for generating initial building auxiliary information under a BIM model coordinate system corresponding to the auxiliary display instruction when the engineering auxiliary instruction is an auxiliary display instruction and sending the initial building auxiliary information to an edge computing node; And the edge computing node comprises a real-time positioning engine, and is used for converting the received initial building auxiliary information into target building auxiliary information under an AR equipment coordinate system and sending the target building auxiliary information to the AR equipment. Optionally, the speech recognition engine is configured according to the following steps: Creating an initial speech recognition model; Constructing an engineering field word stock, and training the initial speech recognition model by utilizing the engineering field word stock to obtain a target speech recognition model; And constructing a voice training set under construction environment noise, and performing model calibration on the target voice recognition model by utilizing the voice training set to obtain the voice recognition engine. Optionally, the cloud data platform further includes: the BIM model database is used for storing BIM model data corresponding to a BIM model of a construction project; And the construction management database is used for storing construction management data associated with a sub-model of the BIM model, wherein the sub-model is obtained by splitting the BIM model according to a construction stage. Optionally, the terminal device further comprises a positioning device, and the real-time positioning engine is configured to: Acquiring BIM model data in the BIM model database, and Acquiring three-dimensional scene data acquired by the positioning equipment; Spatially aligning the three-dimensional scene data with the BIM model data, and establishing a conversion relation between a BIM model coordinate system, a field coordinate system and an AR equipment coordinate system; And converting the coordinate system according to the conversion relation. Optionally, the decision module is further configured to: And executing the auxiliary operation instruction when the engineering auxiliary instruction is the auxiliary operation instruction. According to a second