CN114091939A - Project progress monitoring system and method based on block chain - Google Patents
Project progress monitoring system and method based on block chain Download PDFInfo
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Abstract
The invention discloses an engineering progress supervision system and method based on a block chain, relating to the technical field of engineering progress supervision and comprising the following steps: acquiring the actual engineering material quantity, the just-needed engineering material quantity and the pre-estimated engineering material quantity from the data center; checking and verifying the actual engineering material quantity and the estimated engineering material quantity, and judging whether data deviation exists or not; comparing the actual engineering material quantity with the newly-needed engineering material quantity, and judging whether the material quantity is sufficient or not; calculating the time spent on the whole progress, determining the actual project progress, comparing and adjusting the actual project progress with the expected project progress, and acquiring the adjusted work content; and judging whether the construction can be normally carried out or whether the construction progress adjustment is correct or not, and sending the final work content to each receiving device of the engineering personnel. The invention avoids the condition of insufficient material or unqualified material in the subsequent construction period and ensures the stability of the construction period.
Description
Technical Field
The invention relates to the technical field of project progress supervision, in particular to a block chain-based project progress supervision system and a block chain-based project progress supervision method.
Background
Along with the development of the construction industry in China, the proportion of the production value of the construction industry to the total production value in China is increased year by year, and due to the continuous improvement of the construction scientific and technical level, the scale and the structural complexity of the project are increased, and the owners put forward higher requirements on the construction progress. The construction progress management is an important content in the field of engineering project management, the normal operation of an engineering project is directly influenced, and the economic benefit and the social benefit of the project are related.
Disclosure of Invention
In view of the above, the present invention provides a block chain-based project progress monitoring system and a method thereof, so as to solve the technical problem of unstable construction period caused by insufficient material or unqualified material in the subsequent construction period in the prior art.
In order to achieve the above object, the present invention is implemented by the following technical solutions, and a system and a method for project progress supervision based on a block chain specifically include the following steps:
step 1: acquiring actual engineering material quantity, just needed engineering material quantity and pre-estimated engineering material quantity;
step 2: checking and verifying the actual engineering material quantity data and the estimated engineering material quantity data based on the obtained actual engineering material quantity and the estimated engineering material quantity, and judging whether data deviation exists or not;
if so, adjusting the actual engineering material quantity to eliminate an error;
if not, the operation is continued.
And step 3: comparing the actual engineering material quantity with the just-needed engineering material quantity based on the obtained actual engineering material quantity and the just-needed engineering material quantity, judging whether the material is sufficient,
if yes, calculating the time spent on the whole progress;
if not, acquiring the actual supplement amount of the engineering material;
and 4, step 4: acquiring the current progress amount based on the time spent on the acquired overall progress, determining the actual project progress, comparing and adjusting the actual project progress with the expected project progress, and acquiring the adjusted work content;
and 5: based on the adjusted work content, judging whether the construction can be normally carried out or whether the construction progress is adjusted correctly according to the current demand information and the current construction progress,
and if the construction can be normally carried out or the construction progress is correctly adjusted, the final data content is sent to each engineering personnel receiving device.
Preferably, the obtaining module is configured to obtain data of the actual engineering material amount, the engineering material amount just needed, and the estimated engineering material amount from the data center.
Preferably, the actual engineering material amount data and the estimated engineering material amount data are verified based on the obtained actual engineering material amount and the estimated engineering material amount, and whether a data deviation exists is judged to generate a verification module, wherein the verification module is used for verifying the actual engineering material amount data and the estimated engineering material amount data and judging whether the data deviation exists.
Preferably, the actual engineering material amount and the engineering material amount just needed are compared based on the obtained actual engineering material amount and the engineering material amount just needed to generate a comparison calculation module, and the comparison calculation module is used for comparing the actual engineering material amount and the engineering material amount just needed and judging whether the materials are sufficient or not and calculating the time taken by the overall progress.
Preferably, the existing progress amount is obtained based on the obtained time spent on the overall progress, the actual project progress is determined and is compared and adjusted with the expected project progress, and the adjusted work content is obtained to generate a progress adjustment module, and the progress adjustment module is used for obtaining the existing progress amount and comparing and adjusting the existing progress amount with the expected progress amount.
Preferably, based on the adjusted work content, whether construction can be normally performed or whether the construction progress adjustment is correct is judged according to the current demand information and the current construction progress to generate a judgment execution module, and the judgment execution module is used for reading whether the adjusted work content can be normally performed or whether the construction progress adjustment is correct, and sending the final work content to each receiving device of engineering personnel.
In another aspect, a system for project progress supervision based on a blockchain includes,
a material quantity acquisition module: the data information is used for acquiring the actual engineering material quantity, the just-needed engineering material quantity and the predicted engineering material quantity from the data center;
a determination module: the method is used for judging whether the material is sufficient or not based on the obtained actual engineering material quantity, the just-needed engineering material quantity and the estimated engineering material quantity;
actual progress acquisition module: the method comprises the steps of obtaining the existing progress amount based on the obtained time spent on the whole progress, and determining the actual project progress;
the actual progress adjusting module: the system is used for comparing and adjusting the actual project progress with the expected project progress based on the obtained actual project progress to obtain the adjusted work content;
a redistribution module: the system is used for classifying the work contents based on the obtained adjusted work contents, and after the work contents are reordered according to the difficulty and the priority, the contents needing to be preferentially processed can be preferentially processed, so that the subsequent work contents can be more stable;
a feedback update module: for judging whether the construction can be normally carried out or whether the construction progress is correctly adjusted according to the current demand information and the current construction progress based on the redistributed work content,
and if the construction can be normally carried out or the construction progress is correctly adjusted, the final work content is sent to each engineering personnel receiving device.
Compared with the prior art, the invention has the following beneficial effects:
the invention discloses a block chain-based engineering progress monitoring system and a method thereof, wherein the system comprises the following steps: acquiring the actual engineering material quantity, the just-needed engineering material quantity and the pre-estimated engineering material quantity from the data center; checking and verifying the actual engineering material quantity and the estimated engineering material quantity, and judging whether data deviation exists or not; comparing the actual engineering material quantity with the newly-needed engineering material quantity, and judging whether the material quantity is sufficient or not; calculating the time spent on the whole progress, determining the actual project progress, comparing and adjusting the actual project progress with the expected project progress, and acquiring the adjusted work content; and judging whether the construction can be normally carried out or whether the construction progress adjustment is correct or not, and sending the final work content to each receiving device of the engineering personnel. According to the construction method, the acquisition module is used for acquiring the data of the engineering material quantity, and after the data is confirmed by the comparison and verification module, the system is used for calculating to ensure that the materials are sufficient during construction, so that the condition that the materials are insufficient or unqualified during the subsequent construction period is avoided, and the stability of the construction period is ensured.
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Fig. 1 is a structural diagram of a block chain-based project progress monitoring system according to an embodiment of the present invention.
Detailed Description
To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings, and it is apparent that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
The invention provides a block chain-based project progress monitoring system and a method thereof, which specifically comprise the following steps:
step 1: acquiring actual engineering material quantity, just needed engineering material quantity and pre-estimated engineering material quantity;
step 2: checking and verifying the actual engineering material quantity data and the estimated engineering material quantity data based on the obtained actual engineering material quantity and the estimated engineering material quantity, and judging whether data deviation exists or not;
if so, adjusting the actual engineering material quantity to eliminate an error;
if not, the operation is continued.
And step 3: comparing the actual engineering material quantity with the just-needed engineering material quantity based on the obtained actual engineering material quantity and the just-needed engineering material quantity, judging whether the material is sufficient,
if yes, calculating the time spent on the whole progress;
if not, acquiring the actual supplement amount of the engineering material;
and 4, step 4: acquiring the current progress amount based on the time spent on the acquired overall progress, determining the actual project progress, comparing and adjusting the actual project progress with the expected project progress, and acquiring the adjusted work content;
and 5: based on the adjusted work content, judging whether the construction can be normally carried out or whether the construction progress is adjusted correctly according to the current demand information and the current construction progress,
and if the construction can be normally carried out or the construction progress is correctly adjusted, the final data content is sent to each engineering personnel receiving device.
Preferably, the obtaining module is configured to obtain data of the actual engineering material amount, the engineering material amount just needed, and the estimated engineering material amount from the data center.
Preferably, the actual engineering material amount data and the estimated engineering material amount data are verified based on the obtained actual engineering material amount and the estimated engineering material amount, and whether a data deviation exists is judged to generate a verification module, wherein the verification module is used for verifying the actual engineering material amount data and the estimated engineering material amount data and judging whether the data deviation exists.
Preferably, the actual engineering material amount and the engineering material amount just needed are compared based on the obtained actual engineering material amount and the engineering material amount just needed to generate a comparison calculation module, and the comparison calculation module is used for comparing the actual engineering material amount and the engineering material amount just needed and judging whether the materials are sufficient or not and calculating the time taken by the overall progress.
Preferably, the existing progress amount is obtained based on the obtained time spent on the overall progress, the actual project progress is determined and is compared and adjusted with the expected project progress, and the adjusted work content is obtained to generate a progress adjustment module, and the progress adjustment module is used for obtaining the existing progress amount and comparing and adjusting the existing progress amount with the expected progress amount.
Preferably, based on the adjusted work content, whether construction can be normally performed or whether the construction progress adjustment is correct is judged according to the current demand information and the current construction progress to generate a judgment execution module, and the judgment execution module is used for reading whether the adjusted work content can be normally performed or whether the construction progress adjustment is correct, and sending the final work content to each receiving device of engineering personnel.
In another aspect, a system for project progress supervision based on a blockchain includes,
a material quantity acquisition module: the data information is used for acquiring the actual engineering material quantity, the just-needed engineering material quantity and the predicted engineering material quantity from the data center;
a determination module: the method is used for judging whether the material is sufficient or not based on the obtained actual engineering material quantity, the just-needed engineering material quantity and the estimated engineering material quantity;
if yes, calculating the time spent on the whole progress;
if not, acquiring the actual supplement amount of the engineering material;
actual progress acquisition module: the method comprises the steps of obtaining the existing progress amount based on the obtained time spent on the whole progress, and determining the actual project progress;
the actual progress adjusting module: the system is used for comparing and adjusting the actual project progress with the expected project progress based on the obtained actual project progress to obtain the adjusted work content;
a redistribution module: the system is used for classifying the work contents based on the obtained adjusted work contents, and after the work contents are reordered according to the difficulty and the priority, the contents needing to be preferentially processed can be preferentially processed, so that the subsequent work contents can be more stable;
a feedback update module: for judging whether the construction can be normally carried out or whether the construction progress is correctly adjusted according to the current demand information and the current construction progress based on the redistributed work content,
and if the construction can be normally carried out or the construction progress is correctly adjusted, the final work content is sent to each engineering personnel receiving device.
It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (7)
1. A project progress supervision method based on a block chain is characterized by comprising the following steps:
step 1: acquiring actual engineering material quantity, just needed engineering material quantity and pre-estimated engineering material quantity;
step 2: checking and verifying the actual engineering material quantity and the estimated engineering material quantity based on the obtained actual engineering material quantity and the estimated engineering material quantity, and judging whether data deviation exists or not;
if so, adjusting the actual engineering material quantity to eliminate an error;
if not, continuing working;
and step 3: comparing the actual engineering material quantity with the just-needed engineering material quantity based on the obtained actual engineering material quantity and the just-needed engineering material quantity, judging whether the material quantity is sufficient,
if yes, calculating the time spent on the whole progress;
if not, acquiring the actual supplement amount of the engineering material;
and 4, step 4: acquiring the current progress amount based on the time spent on the acquired overall progress, determining the actual project progress, comparing and adjusting the actual project progress with the expected project progress, and acquiring the adjusted work content;
and 5: based on the adjusted work content, judging whether the construction can be normally carried out or whether the construction progress is adjusted correctly according to the current demand information and the current construction progress;
and if the construction can be normally carried out or the construction progress is correctly adjusted, the final data content is sent to each engineering personnel receiving device.
2. The method of claim 1, wherein the obtaining of the actual engineering material amount, the just-needed engineering material amount, and the pre-estimated engineering material amount to generate the obtaining module,
the acquisition module is used for acquiring data of actual engineering material quantity, just-needed engineering material quantity and pre-estimated engineering material quantity from the data center.
3. The method as claimed in claim 1, wherein the actual quantity of engineering material and the estimated quantity of engineering material are verified based on the obtained actual quantity of engineering material and the estimated quantity of engineering material, and whether data deviation exists is judged to generate a verification module,
the checking and verifying module is used for checking and verifying the actual engineering material quantity data and the estimated engineering material quantity data, judging whether data deviation exists or not, and if the data deviation exists, adjusting the actual engineering material quantity.
4. The method of claim 1, comparing the actual quantity of engineering material with the quantity of engineering material just needed to generate a comparison calculation module based on the obtained actual quantity of engineering material and quantity of engineering material just needed,
the comparison calculation module is used for comparing the actual engineering material quantity with the just-needed engineering material quantity and judging whether the materials are sufficient or not and calculating the time spent on the whole progress.
5. The method of claim 1, wherein the obtaining of the amount of progress is based on the time taken for the overall progress obtained, determining the actual project progress, and adjusting in comparison with the expected project progress to obtain the adjusted work content to generate a progress adjustment module,
the progress adjusting module is used for acquiring the existing progress amount and comparing and adjusting the existing progress amount with the expected progress amount.
6. The method according to claim 1, wherein the judging whether the construction can be normally performed or whether the construction progress adjustment is correct is performed based on the adjusted work content according to the current demand information and the current construction progress to generate a judgment execution module,
and the judgment execution module is used for reading whether the adjusted work content can be normally constructed or whether the construction progress adjustment is correct or not and sending the final work content to each receiving device of engineering personnel.
7. A project progress monitoring system based on a block chain is characterized by comprising,
a material quantity acquisition module: the data information is used for acquiring the actual engineering material quantity, the just-needed engineering material quantity and the predicted engineering material quantity from the data center;
a determination module: the method is used for judging whether the material quantity is sufficient or not based on the obtained actual engineering material quantity, the just-needed engineering material quantity and the estimated engineering material quantity;
actual progress acquisition module: the method comprises the steps of obtaining the existing progress amount based on the obtained time spent on the whole progress, and determining the actual project progress;
the actual progress adjusting module: the system is used for comparing and adjusting the actual project progress with the expected project progress based on the obtained actual project progress to obtain the adjusted work content;
a redistribution module: the system is used for classifying the work contents based on the obtained adjusted work contents and reordering the work contents according to the difficulty and the priority, so that the contents needing to be preferentially processed can be preferentially processed, and the subsequent work contents can be more stable;
a feedback update module: for judging whether the construction can be normally carried out or whether the construction progress is correctly adjusted according to the current demand information and the current construction progress based on the redistributed work content,
and if the construction can be normally carried out or the construction progress is correctly adjusted, the final work content is sent to each engineering personnel receiving device.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN115760009A (en) * | 2022-11-30 | 2023-03-07 | 中诚智信工程咨询集团股份有限公司 | Project progress management method, device, equipment and storage medium |
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