CN111126884A - Engineering progress management system and method based on block chain - Google Patents

Abstract

The invention discloses an engineering progress management system and method based on a block chain. The bottom layer block chain module adopts a union chain as a technical bottom layer and comprises a service core node, an information monitoring node, a CA node, a key module and an intelligent contract module; the service core node comprises a main packet side node, a packet side node and a monitoring unit node; the upper application logic module comprises a user management module, an engineering plan release module, an engineering progress tracking module, an engineering progress feedback module and a summary report module. The invention fully utilizes the characteristics of transparent block chain, credibility, tamper resistance, traceability and the like, realizes the management of the whole process full granularity of the project progress, improves the working efficiency of the business core side and the capability of tracing and tracing the problem, and enables the project initiator and the consulting company to check the project progress in real time, discover the problem in advance and solve the problem avoiding risk in time.

Description

Engineering progress management system and method based on block chain

Technical Field

The invention belongs to the field of information storage and sharing based on a block chain and the field of engineering progress control, and particularly relates to an engineering progress management system and method based on the block chain.

Background

The blockchain technology refers to a technical scheme for collectively maintaining a reliable database in a decentralized and distrust-free mode. The block chain can be divided into a public chain, a private chain and a alliance chain, wherein the alliance chain technology only aims at members of a certain specific group and limited third parties, authorized nodes are allowed to join the network, and information can be viewed according to authority. And the transaction confirmation on the blockchain is completed by the consensus of all the nodes on the blockchain, and the block is packed and written after the consensus is successful. Any behavior that wants to modify the data on the chain needs to be supported by more than half of the nodes in the whole system, so that the credibility of the data on the chain is greatly guaranteed.

Smart contracts, which are generally considered from a user's perspective as an automatically secured account, for example, when certain conditions are met, a program releases and transfers funds. From the technical point of view, the intelligent contract is a special protocol deployed on the blockchain, data storage, reading and writing and some logic operations on the blockchain can be realized through the intelligent contract, and most blockchain applications are operated based on the intelligent contract at present. In addition, the solid language used by the intelligent contract is completely graphic, and can realize all operations of the application business logic.

The project progress management refers to management of the progress of each stage and the final project completion period in the project implementation process. In the process of executing the schedule, whether the actual schedule is carried out according to the schedule requirement is often checked, if deviation occurs, reasons need to be found out in time, necessary remedial measures are taken or the original schedule is adjusted and modified until the project is finished. The aim is to ensure that the engineering can realize the overall target on the premise of meeting the time constraint condition.

With the acceleration of the industrialization and urbanization processes, the construction of buildings becomes a normal state. However, in the management of building construction, since many sites for building construction are scattered and unfixed, and the number of construction sites is large, the management difficulty of safe construction and civilized construction and the supervision difficulty of personnel and equipment are increased. On the other hand, in a building project, due to the influence of various factors such as funds, personnel, materials, weather, geological conditions, management and the like, the construction progress can not be completed according to a plan, and for many factors causing the construction progress to be completed according to the plan, the reason is mostly analyzed through manual investigation and the progress is adjusted.

Disclosure of Invention

The invention aims to provide a project progress management system and method based on a block chain, aiming at the defects of the prior art.

The purpose of the invention is realized by the following technical scheme: a project progress management system based on a block chain comprises a bottom layer block chain module and an upper layer application logic module; the upper application logic module comprises a user management module, an engineering plan release module, an engineering progress tracking module, an engineering progress feedback module and a summary report module; the users comprise a general packet party, a sub packet party, a team group, a supervision unit, an engineering initiator and an engineering consultation company; the supervision unit is used for carrying out total package supervision, sub-package supervision and team supervision on a total package party, a sub-package party and teams; the bottom layer block chain module comprises a general contracting party node, a monitoring unit node, an engineering initiator node, an engineering consulting company node, a CA node, a key module and an intelligent contract module; the general packet party node, the monitoring unit node, the engineering initiator node and the engineering consultation company node are connected through a P2P network;

the project plan issuing module is used for issuing a master control target plan by a master party, issuing a monthly project plan by a sub-party and issuing a weekly project plan by a team group; the module calls an intelligent contract to send a master control target plan to a master packet party node, sends a monthly project plan and a weekly project plan to a packet party node, broadcasts the master control target plan, the monthly project plan and the weekly project plan to other nodes connected through a P2P network after the whole network is identified, and records the master control target plan, the monthly project plan and the weekly project plan in a block chain;

the project progress tracking module is used for team supervision and uploading daily progress tracking information, sub-package supervision and uploading weekly progress tracking information and general package supervision and uploading monthly progress tracking information; the module calls an intelligent contract to send daily progress tracking information, weekly progress tracking information and monthly progress tracking information to a monitoring unit node, broadcasts the information to other nodes connected through a P2P network after the information is identified in the whole network, and records the information in a block chain;

the project progress feedback module is used for carrying out weekly schedule clearing on teams and groups every week to obtain a weekly schedule report, carrying out monthly schedule clearing on subcontractors every month to obtain a monthly schedule report, and carrying out total control target schedule clearing on a total packet party when a total control target schedule is due or is completed in advance to obtain a total control schedule report; the module calls an intelligent contract to send a master control plan report to a master packet side node, sends a monthly plan report and a weekly plan report to a sub packet side node, broadcasts the master control plan report, the monthly plan report and the weekly plan report to other nodes connected through a P2P network after the whole network is identified, and records the reports in a block chain.

Further, the master control target plan comprises a plan release date, a plan release person, a monthly plan workload and a plan executive person; the monthly engineering plan comprises a plan release date, a plan release person, a weekly plan workload and a plan executor; the weekly engineering plan comprises a planned release date, a planned release person, a daily planned workload and a planned executor.

Furthermore, the daily progress tracking information comprises information uploading persons, uploading time, actual working progress of each worker every day and a monitoring judgment result; the weekly progress tracking information comprises information uploaders, uploading time, actual work progress of each team every week and a supervision judgment result; the monthly progress tracking information comprises information uploaders, uploading time, actual working progress of each subcontractor every month and a monitoring judgment result; and the monitoring judgment result is that the vehicle is over-completed, normally completed or not completed and is attached with a delay reason.

Furthermore, the weekly schedule clearing module calls an intelligent contract to inquire and contrast the weekly project schedule and daily schedule tracking information for the project schedule feedback module; the monthly plan liquidation module calls an intelligent contract for inquiring and comparing monthly project plan and weekly progress tracking information for the project progress feedback module; the master control target plan is cleared to call an intelligent contract for the engineering progress feedback module to inquire and compare the master control target plan and monthly progress tracking information; the weekly schedule report, the monthly schedule report and the master control schedule report all comprise schedule completion states; the plan complete status is completed in advance, such as due completion or incomplete with an attached deferral reason.

Further, the reason for the delay when the planned completion status is incomplete is obtained by: when the total control target plan is not finished, calling an intelligent contract to inquire monthly progress tracking information, finding out months which cannot be finished according to the monitoring judgment result, and summarizing delay reasons; when the monthly engineering plan is not finished, calling an intelligent contract to inquire the weekly progress tracking information of each week of the month, finding out each week of which the supervision judgment result is not finished, and summarizing delay reasons; when the maturity of the weekly project plan is not finished, calling an intelligent contract to inquire daily progress tracking information of each day of the week, finding each day with the supervision and judgment result of incomplete and summarizing delay reasons.

Further, the summary report includes a plan executor, a plan execution number, an excess plan completion number, a normal plan completion number, a plan failure number, and a plan failure reason.

The invention also provides a management method of the project progress management system based on the block chain, which comprises the following steps:

(1) the general packet party issues a general control target plan through an engineering plan issuing module;

(2) each subcontracting party releases the monthly engineering plan according to the master control target plan through an engineering plan releasing module according to the month;

(3) each team publishes a weekly project plan through a project plan publishing module according to a monthly project plan of a superior subcontractor on a weekly basis;

(4) after each working day is finished, the team supervises and records and uploads daily progress tracking information through the project progress tracking module;

(5) after each working week is finished, the team and team carry out weekly schedule liquidation and issue a weekly schedule report form through the project progress feedback module; meanwhile, sub-package supervision uploads the weekly progress tracking information of the affiliated team through the project progress tracking module;

(6) after each working month is finished, the subcontracting party carries out monthly plan liquidation and issues a monthly plan report form through the project progress feedback module; meanwhile, the total package monitoring uploads monthly progress tracking information of the sub-package party through the project progress tracking module;

(7) when the master control target plan is due or completed in advance, the master packet party carries out master control plan clearing and issues a master control plan report form through the engineering progress feedback module; if the master control target plan is finished, generating a summary report through a summary report module; otherwise, a new total control target plan is issued by the project plan issuing module according to the unfinished project progress.

Compared with the prior art, the invention has the following beneficial effects: the project progress management system provides complete functional modules for all roles in the whole project life cycle for progress management and analysis, fully utilizes the characteristics of transparent, credible, tamper-proof, traceable and the like of a block chain, can ensure the safety of information while conveniently and quickly exchanging information, is easy to supervise, is transparent and open, realizes the management of the whole process full granularity of the project progress, improves the work efficiency of a business core party and the capability of tracing and tracing the liability of positioning problems, and enables a project initiator and a consultation company to check the project progress in real time, find the problems in advance and solve the problem avoiding risk in time; in addition, the system can also generate reports for engineering construction parties, and the reports can be used as a credible certificate for proving the planning capability and the performance capability of the engineering construction parties.

Drawings

FIG. 1 is an architecture diagram of a blockchain based project schedule management system;

fig. 2 is a flow chart of the operation of the project progress management system based on the block chain.

Detailed Description

The block chain based project progress management system of the present invention is further explained with reference to the accompanying drawings.

As shown in fig. 1, a block chain-based project progress management system includes a bottom layer block chain module and an upper layer application logic module. The bottom layer block chain module adopts a union chain as a technical bottom layer and comprises a service core node, an information monitoring node, a CA node, a key module and an intelligent contract module; the service core node comprises a main packet side node, a packet side node and a monitoring unit node; the information monitoring nodes comprise an engineering initiator node and an engineering consultation company node.

The general packet party node, the sub packet party node, the monitoring unit node, the engineering initiator node and the engineering consultation company node are connected with each other through a P2P network, and data on different nodes are consistent through a PBFT (Practical Byzantine faultTolerance) consensus algorithm. The CA node is used for issuing a CA certificate for an admittance user of the alliance chain, the user uses the CA certificate to connect the block chain network, and the CA node is assisted by an engineering consultation company to maintain by an engineering initiator; the key module generates a pair of public and private keys for a designated node by using an asymmetric encryption algorithm, the node which acquires the public and private keys broadcasts a self public key to other nodes on a P2P network through a broadcasting protocol, the private key is stored in the node and is used for encrypting and signing a message sent by the designated node, and the node which receives the message is decrypted by using the public key of the designated node so as to determine the identity of a sending node; the intelligent contract module is used for realizing encapsulation of operations such as task issuing, progress uploading, information query and the like, and is convenient for the upper application logic module to interact with the bottom layer module chain module by calling an intelligent contract.

The general packet side node is responsible for issuing a project general control target plan, clearing the general control target plan and generating a summary report; the sub-packaging party node is responsible for issuing monthly project plans and monthly plan liquidation, and in addition, considering that the groups are incapable of maintaining separate nodes, the sub-packaging party node is also responsible for issuing weekly project plans and weekly plan liquidation for the groups to which the sub-packaging party node belongs; the supervision unit node is responsible for daily progress tracking, weekly progress tracking and monthly progress tracking; the project initiator and the project consulting company are information monitoring parties, can see all data on the system in real time, can directly contact with related parties once finding risks or potential risks, consult and modify related plans or directly release new plans, and ensure that projects can be completed smoothly; and the project initiator node and the project consultation company node receive all the currently published plans and supervise the uploaded progress tracking information in real time, and find out problems in time.

The upper application logic module comprises the following sub-modules:

(1) a user management module: the system comprises a user, a plurality of sub-packaging parties, a plurality of supervision units, a project initiator and a project consultation company, wherein the main packaging party belongs to the plurality of sub-packaging parties, each sub-packaging party belongs to the plurality of teams, the supervision units are respectively used for main packaging supervision, sub-packaging supervision and team supervision according to the main packaging party, the sub-packaging parties and the teams, and different users grant different operation authorities. The method comprises the steps that an engineering initiator and an engineering consultation company are registered into a user, then other users upload identity information, organization names and organization certificates (business licenses and the like) during registration, and after the engineering initiator and the engineering consultation company are audited, a pair of public and private keys are generated for the user by using a specified asymmetric encryption algorithm (RSA \ ECC \ SM 2), wherein the public keys are a block chain network account of the user, and the private keys are user identity certificates; in addition, the CA node is used for generating a certificate for the user as an admission certificate of the user.

(2) The project plan issuing module: the general packet party makes a general control target plan according to project requirements and issues the general control target plan, the sub-packet party issues monthly project plans based on the general control target plan of the general packet party, and the team and the group issue weekly project plans according to the monthly project plans of the upper sub-packet party. The module calls an intelligent contract to send a master control target plan to a master contracting party node and send a monthly engineering plan and a weekly engineering plan to a subcontracting party node, so that the whole network consensus is carried out, the master control target plan, the monthly engineering plan and the weekly engineering plan are respectively broadcasted to other nodes connected through a P2P network and recorded in a block chain, and the non-falsifiable and traceable engineering plan recording is realized. The total control target plan comprises a plan release date, a plan release person (unit), a monthly plan workload and a plan executive person (unit); the monthly engineering plan comprises a plan release date, a plan release person (unit), a weekly plan workload and a planned executive person (unit); the weekly project plan comprises a planned release date, a planned release person (unit), a daily planned workload and a planned executive person (unit).

(3) The engineering progress tracking module: the team supervision tracks the actual working progress of each worker in the team every day, and uploads daily progress tracking information to realize the whole-process tracking of the weekly project plan and the supervision of the project progress; sub-package supervision is carried out to track the actual working progress of each team every week, the tracking information of the weekly progress is uploaded, and the whole-process tracking of the monthly project plan and the supervision of each team are realized; and the master packet monitors the actual work progress of the sub-packet parties in each month, uploads monthly progress tracking information, and realizes the whole-process tracking of the master control target plan and the supervision of each sub-packet. The module calls an intelligent contract to send daily progress tracking information, weekly progress tracking information and monthly progress tracking information to a monitoring unit node, the whole network consensus is carried out, the daily progress tracking information, the weekly progress tracking information and the monthly progress tracking information are broadcasted to other nodes connected through a P2P network, the daily progress tracking information and the monthly progress tracking information are recorded in a block chain, and the traceability and traceability ability and credibility are realized when problems occur. The daily progress tracking information, the weekly progress tracking information and the monthly progress tracking information comprise information uploading persons, uploading time, current actual working progress and a supervision judgment result; the judgment result of the supervision comprises the excess completion of the workload of the plan in the period, the normal completion of the workload of the plan in the period and the failure of the completion of the workload of the plan in the period; if the workload planned in the period is not completed, a possible delay reason obtained by inspection unit examination needs to be submitted.

(4) The project progress feedback module: the team carries out weekly schedule clearing once every week, and the module calls an intelligent contract to inquire and contrast weekly engineering schedule and daily schedule tracking information to obtain a weekly schedule report; the subcontractor carries out monthly plan clearing once every month, and the module calls an intelligent contract to inquire and compare monthly engineering plan and weekly progress tracking information to obtain a monthly plan report; the general packet party carries out primary general control target plan clearing when the general control target plan is due, and the module calls an intelligent contract to inquire and compare the general control target plan and monthly progress tracking information to obtain a general control plan report; the module calls an intelligent contract to send a master control plan report to a master packet party node, and sends a monthly plan report and a weekly plan report to a sub packet party node, so that the whole network consensus is carried out, and the master control plan report, the monthly plan report and the weekly plan report are respectively broadcasted to other nodes connected through a P2P network and recorded in a block chain; the cycle plan report form, the month plan report form and the master control plan report form all comprise plan completion states which are divided into incomplete states, complete states in due days and complete states in advance, and delay reasons are attached to the schedule report form in due days; for a plan that completes on schedule, the status of the plan is set to completed, and subsequent operations are prevented from updating the contents associated with the plan by application logic implemented in the intelligent contracts.

The specific steps of the plan liquidation at each level are as follows:

(a) comparing the planned workload of the period with the actual workload in the progress tracking information uploaded by the monitoring unit, and if the actual workload is greater than the planned workload, excessively finishing the plan; if the actual workload just covers the planned workload, the plan is normally finished; if the actual workload is less than the planned workload, the plan cannot be completed;

(b) if the plan is completed in excess, the plan is reported to be completed, and the current plan is reported to not exert the work efficiency of the execution unit, so that the plan standard can be properly improved;

(c) if the plan is normally finished, reporting that the plan is normally finished;

(d) if the project cannot be completed due to expiration, backtracking progress tracking information of the current stage and the next stage, tracing layer by layer to find delay reasons, reporting that the project is not completed and reporting the reasons of incompletion, providing reference for the project planning of the next period, and constructing a feedback mechanism based on actual conditions; if there is no significant reason, reporting that the plan is incomplete and reporting that the current plan overestimates the performance of the execution units, the planning criteria can be reduced or more execution units can be added as appropriate to ensure that the overall plan is completed on an on-schedule basis, provided that the overall plan requirements are met.

The delay searching reason through tracing the source layer by layer is specifically as follows: when the total control target plan is not finished, calling an intelligent contract to inquire monthly progress tracking information of each month, and summarizing delay reasons of each month; when the monthly engineering plan is not finished, calling an intelligent contract to inquire the weekly progress tracking information of each week of the month, and summarizing delay reasons of each week; when the weekly project plan is not finished, calling an intelligent contract to inquire daily progress tracking information of each day of the week, and summarizing delay reasons of each day.

(5) A summary report module: and combining the plan and the actual progress of the whole project to generate a summary report for the teams, the subcontracts and the general packages, wherein the summary report is used as a credible certificate for proving the planning capability and the performance capability of the teams, the subcontracts and the general packages. The summary report includes plan executors (units), plan execution times, excess plan completion times, normal plan completion times, failure to complete plan times and failure to complete plan reasons.

As shown in fig. 2, when the project initiator has a project construction requirement, a project is initiated for the requirement establishment; aiming at the engineering project, the engineering initiator selects an engineering consultation company to cooperate; the project initiator and the project consulting company compose a project proposal and a project plan according to the requirements of the project initiator, capital conditions and other realistic factors; the engineering consultation company assists the engineering initiator to bid and select a general packet party as the engineering concrete implementation unit, and the preposed action is completed. The project progress management method based on the block chain comprises the following processes:

(1) the general packet party publishes a project general control plan through a project plan publishing module;

(2) each sub-party issues a monthly project plan through a project plan issuing module according to the master control plan monthly;

(3) each team publishes a weekly project plan through a project plan publishing module according to a monthly project plan of a superior sub-package in weeks;

(4) after each working day is finished, the team supervises and records and uploads daily progress tracking information through the project progress tracking module;

(5) if the working day is a weekday plan clearing day, carrying out weekday plan clearing on the teams and issuing a new weekday project plan through the project progress feedback module according to the clearing, and carrying out sub-package supervision to track and record the actual working progress of the teams and uploading the weekday progress tracking information through the project progress tracking module;

(6) if the working day is a monthly working clearing day, subpackaging for clearing a monthly plan and releasing a new monthly engineering plan through the feedback of the engineering progress feedback module according to the clearing, and simultaneously carrying out tracking record on the actual working progress of the subpackage by total package supervision and uploading monthly progress tracking information through the engineering progress tracking module;

(7) if the working day is the total control plan clearing day, the total package carries out the total control plan clearing, and if the plan is finished, the plan and the actual progress of the whole project are combined to generate a summary report for the team, the sub-package and the total package through a summary report module; otherwise, a new project master control plan is issued by the project plan issuing module according to the unfinished project progress.

Claims (7)

1. A project progress management system based on a block chain is characterized by comprising a bottom layer block chain module and an upper application logic module; the upper application logic module comprises a user management module, an engineering plan release module, an engineering progress tracking module, an engineering progress feedback module and a summary report module; the users comprise a general packet party, a sub packet party, a team group, a supervision unit, an engineering initiator and an engineering consultation company; the supervision unit is used for carrying out total package supervision, sub-package supervision and team supervision on a total package party, a sub-package party and teams; the bottom layer block chain module comprises a general contracting party node, a monitoring unit node, an engineering initiator node, an engineering consulting company node, a CA node, a key module and an intelligent contract module; the general packet party node, the monitoring unit node, the engineering initiator node and the engineering consultation company node are connected through a P2P network;

the project plan issuing module is used for issuing a master control target plan by a master party, issuing a monthly project plan by a sub-party and issuing a weekly project plan by a team group; the module calls an intelligent contract to send a master control target plan to a master packet party node, sends a monthly project plan and a weekly project plan to a packet party node, broadcasts the master control target plan, the monthly project plan and the weekly project plan to other nodes connected through a P2P network after the whole network is identified, and records the master control target plan, the monthly project plan and the weekly project plan in a block chain;

the project progress tracking module is used for team supervision and uploading daily progress tracking information, sub-package supervision and uploading weekly progress tracking information and general package supervision and uploading monthly progress tracking information; the module calls an intelligent contract to send daily progress tracking information, weekly progress tracking information and monthly progress tracking information to a monitoring unit node, broadcasts the information to other nodes connected through a P2P network after the information is identified in the whole network, and records the information in a block chain;

the project progress feedback module is used for carrying out weekly schedule clearing on teams and groups every week to obtain a weekly schedule report, carrying out monthly schedule clearing on subcontractors every month to obtain a monthly schedule report, and carrying out total control target schedule clearing on a total packet party when a total control target schedule is due or is completed in advance to obtain a total control schedule report; the module calls an intelligent contract to send a master control plan report to a master packet side node, sends a monthly plan report and a weekly plan report to a sub packet side node, broadcasts the master control plan report, the monthly plan report and the weekly plan report to other nodes connected through a P2P network after the whole network is identified, and records the reports in a block chain.

2. The system according to claim 1, wherein the general control target plan includes a planned release date, a planned release person, a monthly planned workload, a planned executive; the monthly engineering plan comprises a plan release date, a plan release person, a weekly plan workload and a plan executor; the weekly engineering plan comprises a planned release date, a planned release person, a daily planned workload and a planned executor.

3. The system for managing project progress based on block chains according to claim 1, wherein the daily progress tracking information comprises information uploading persons, uploading time, actual working progress of each worker every day and a supervision judgment result; the weekly progress tracking information comprises information uploaders, uploading time, actual work progress of each team every week and a supervision judgment result; the monthly progress tracking information comprises information uploaders, uploading time, actual working progress of each subcontractor every month and a monitoring judgment result; and the monitoring judgment result is that the vehicle is over-completed, normally completed or not completed and is attached with a delay reason.

4. The blockchain-based project progress management system of claim 1, wherein the weekly schedule clearance invokes an intelligent contract query for comparison of weekly project schedule and daily progress tracking information for a project progress feedback module; the monthly plan liquidation module calls an intelligent contract for inquiring and comparing monthly project plan and weekly progress tracking information for the project progress feedback module; the master control target plan is cleared to call an intelligent contract for the engineering progress feedback module to inquire and compare the master control target plan and monthly progress tracking information; the weekly schedule report, the monthly schedule report and the master control schedule report all comprise schedule completion states; the plan complete status is completed in advance, such as due completion or incomplete with an attached deferral reason.

5. The system for managing project progress based on block chains according to claim 4, wherein the reason for postponement when the planned completion status is incomplete is obtained by: when the total control target plan is not finished, calling an intelligent contract to inquire monthly progress tracking information, finding out months which cannot be finished according to the monitoring judgment result, and summarizing delay reasons; when the monthly engineering plan is not finished, calling an intelligent contract to inquire the weekly progress tracking information of each week of the month, finding out each week of which the supervision judgment result is not finished, and summarizing delay reasons; when the maturity of the weekly project plan is not finished, calling an intelligent contract to inquire daily progress tracking information of each day of the week, finding each day with the supervision and judgment result of incomplete and summarizing delay reasons.

6. The system according to claim 1, wherein the summary report includes a plan executor, a number of execution plans, a number of excess completion plans, a number of normal completion plans, a number of failed completion plans, and a reason for the failed completion plans.

7. The management method of the block chain-based project progress management system based on claim 1 is characterized by comprising the following steps:

(1) the general packet party issues a general control target plan through an engineering plan issuing module;

(2) each subcontracting party releases the monthly engineering plan according to the master control target plan through an engineering plan releasing module according to the month;

(3) each team publishes a weekly project plan through a project plan publishing module according to a monthly project plan of a superior subcontractor on a weekly basis;

(4) after each working day is finished, the team supervises and records and uploads daily progress tracking information through the project progress tracking module;

(5) after each working week is finished, the team and team carry out weekly schedule liquidation and issue a weekly schedule report form through the project progress feedback module; meanwhile, sub-package supervision uploads the weekly progress tracking information of the affiliated team through the project progress tracking module;

(6) after each working month is finished, the subcontracting party carries out monthly plan liquidation and issues a monthly plan report form through the project progress feedback module; meanwhile, the total package monitoring uploads monthly progress tracking information of the sub-package party through the project progress tracking module;

(7) when the master control target plan is due or completed in advance, the master packet party carries out master control plan clearing and issues a master control plan report form through the engineering progress feedback module; if the master control target plan is finished, generating a summary report through a summary report module; otherwise, a new total control target plan is issued by the project plan issuing module according to the unfinished project progress.

Images