CN117808265A - Dynamic display reminding method, device, equipment and medium for enterprise project production information - Google Patents
Dynamic display reminding method, device, equipment and medium for enterprise project production information Download PDFInfo
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Abstract
The invention relates to the technical field of information management systems, and discloses a method, a device, equipment and a medium for dynamically displaying and reminding production information of an enterprise project, wherein the method, the device, the equipment and the medium obtain working procedures required by the production of the order project and the completion condition of each production working procedure of the order according to the production order number information of the enterprise, and display the working procedures and the completion condition through a terminal; judging an abnormal process by analyzing the completion condition of the production process, positioning a worker for processing the abnormal problem, and sending a processing instruction to a worker terminal; the function of displaying the production state in real time is realized, enterprise management personnel can know the production progress and state at any time, and the personnel are supervised to carry out project production, so that decisions can be adjusted in time; and the working personnel can be timely reminded to carry out the next procedure, the personnel cooperation and the working efficiency are enhanced, and therefore the production efficiency of enterprise projects is effectively improved.
Description
Technical Field
The invention relates to the technical field of information management systems, in particular to a method, a device, equipment and a medium for dynamically displaying and reminding enterprise project production information.
Background
With rapid progress and popularization of science and technology, the enterprise information is displayed in real time through the terminal display screen, and the publicized and transparent enterprise information is helpful for individuals, staff and enterprises to more intuitively know the enterprise conditions. However, the current enterprise information display technology is only used for displaying, lacks processing operation on real-time enterprise information, and cannot automatically convert the enterprise information into power for driving the enterprise to progress. Therefore, a technology for realizing the function of dynamically displaying enterprise information and improving the production efficiency by processing the enterprise information is needed.
Disclosure of Invention
In view of the above, the invention provides a method, a device, equipment and a medium for dynamically displaying and reminding enterprise project production information, so as to solve the problem of how to improve the enterprise project production efficiency.
In a first aspect, the present invention provides a method for dynamically displaying and reminding production information of an enterprise item, the method comprising: acquiring enterprise project number information and production label information corresponding to an order based on the order number information; acquiring process number information and preset duration information corresponding to each process required by the order in the enterprise project production flow based on the enterprise project number information, and acquiring first state information corresponding to each process required by the order in real time based on the process number information; acquiring actual time point information corresponding to each process required by the order in the enterprise project production flow in real time based on the production label information, the process number information and the first state information, and acquiring actual time length information of completed processes based on the actual time point information; acquiring second state information corresponding to the completed process based on preset duration information and actual duration information of the completed process; transmitting the process number information, the first state information, the actual time point information and the second state information of the completed process corresponding to each process required by the order to terminal equipment of enterprise project manager for display; and transmitting a reminding instruction to the terminal equipment of the staff based on the second state information of the completed working procedure and the working procedure number information for reminding.
According to the embodiment of the invention, the process state of the order in the production flow is monitored in real time by acquiring the enterprise item number information and the production label information corresponding to the order and combining the process number information, the first state information and the actual time point information which are acquired in real time; various information of the working procedure is displayed at a manager terminal, an enterprise manager can know the production progress and state at any time, prompt the staff to conduct project production, timely adjust decision making, enhance working efficiency, analyze the completion condition of the production working procedure, judge that abnormal working procedures exist, transmit reminding instructions to the terminal equipment of the staff, timely remind the staff to conduct the next working procedure, enhance staff cooperation and work efficiency, and therefore the production efficiency of enterprise projects is effectively improved.
In an alternative embodiment, the actual time point information includes: actual start time information and actual end time information; the first state information includes: a completed state, an executing state, and a waiting state; the second state information includes: timeout state and not timeout state.
In an optional implementation manner, the acquiring, based on the production tag information, the process number information and the first status information, actual time point information corresponding to each process required by the order in the enterprise project production process in real time, and acquiring, based on the actual time point information, actual time length information of a completed process includes: identifying first status information of each process required for an order in an enterprise project production process; if the first state information is in the executing state, the corresponding process is the executing process, the actual starting time information of the executing process is obtained based on the production label information and the process number information, and the actual ending time is set to be a null value; if the first state information is in a waiting state, the corresponding working procedure is a waiting working procedure, and the actual starting time information and the actual ending time are set to be null values; if the first state information is the completed state, the corresponding process is the completed process, and the actual starting time information and the actual ending time information of the completed process are obtained based on the production label information and the process number information; and calculating the difference between the actual starting time information and the actual ending time information of the completed process as the actual duration information of the completed process.
According to the embodiment of the invention, through the recording of the actual starting time and the actual ending time, the execution state of each working procedure including the completed, executing and waiting states can be more accurately obtained; obtaining the actual duration information of the completed working procedure by calculating the difference between the actual starting time and the actual ending time of the completed working procedure, and providing a data basis for judging whether the working procedure has a overtime abnormal state or not; the detailed analysis of the actual time point information and the state information is adopted to obtain more comprehensive and accurate production information, so that enterprises can be helped to monitor and manage various state changes of the working procedures in the production process better, and the production efficiency of the project and the production quality of the working procedures are further improved.
In an optional implementation manner, the acquiring the second state information corresponding to the completed process based on the preset duration information and the actual duration information of the completed process includes: judging whether the preset time length information of the completed process is larger than the actual time length information of the completed process or not; if yes, marking the second state information of the finished working procedure as an overtime-free state; if not, marking the second state information of the completed working procedure as a timeout state.
The embodiment of the invention monitors whether each finished procedure is overtime or not in real time by comparing the preset time length with the actual time length; the actual time length is found to exceed the preset time length, and the actual time length can be marked as a time-out state, so that workers or management staff can be accurately reminded of the abnormal delay condition of production, the delay interruption of all working procedures caused by the delay of a certain working procedure in the order production process is avoided, and the whole project production efficiency is effectively improved.
In an alternative embodiment, the transmitting, to the terminal device of the staff member, a reminding instruction based on the second status information of the completed procedure and the procedure number information includes: identifying second status information of the completed process; if the second state information of the completed working procedure is in a timeout state, the working procedure number information of the completed working procedure is obtained, the production area of the completed working procedure is determined, and the sensor information corresponding to the production area is obtained; according to the sensor information, obtaining the staff information of the production area of the finished process; and according to the information of the staff, transmitting a reminding instruction to terminal equipment of the staff.
According to the embodiment of the invention, the overtime state in the second state information of the finished working procedure is identified, and a reminding instruction is timely sent to related staff; the corresponding production area is determined according to the process number information, the sensor information of the area is obtained, then the staff needing to receive the reminding instruction is determined, the reminding instruction is directly sent to the staff related to the process and the production area, the staff pay attention to the overtime state of the process, the process problem needing to be processed is rapidly known and solved, the production efficiency is effectively improved, and the occurrence of the delay condition of the process is greatly avoided.
In an alternative embodiment, the sensor information is image information, and the image information characterizes a video picture of a production area of a procedure shot by a camera or photo picture information of the production area shot in real time; and obtaining the staff information of the production area of the finished working procedure according to the sensor information, wherein the staff information comprises the following steps: acquiring first coordinate information of a production area of the finished process according to the image information, and acquiring a plurality of second coordinate information which accords with a preset character model in the image information according to a preset image processing algorithm; calculating coordinate distance differences between the first coordinate information and the plurality of second coordinate information to serve as coordinate distance information, and selecting second coordinate information corresponding to minimum coordinate distance information to serve as target staff coordinate information; and acquiring image information of the character model corresponding to the coordinates according to the coordinate information of the target staff, and acquiring the target staff information of the production area through a preset image recognition algorithm.
The embodiment of the invention acquires the first coordinate information of the production area with the finished working procedure by analyzing the image information, including the video picture of the production area shot by the camera or the picture shot in real time, and simultaneously, can extract the second coordinate information which accords with the preset character model through a preset image processing algorithm; the coordinate information of the target staff can be determined by calculating the coordinate distance difference value of the first coordinate information and the plurality of second coordinate information and selecting the second coordinate information corresponding to the minimum coordinate distance information, the target staff can be monitored in real time, the position of the target staff can be accurately identified, the target staff closest to the working procedure can be guaranteed to respond to the reminding instruction in time, and therefore the production efficiency of the staff is effectively improved.
In an alternative embodiment, the sensor information is communication distance information, and the communication distance information characterizes a communication transmission distance between a first communication device at a production area center of a procedure and a second communication device worn by a worker; and obtaining the staff information of the production area of the finished working procedure according to the sensor information, wherein the staff information comprises the following steps: a first communication device positioned in a production area center of a working procedure sends a broadcast query instruction, and receives feedback information returned by a second communication device worn by a worker after receiving the broadcast query instruction; acquiring a plurality of corresponding communication distance information based on the receiving time of the feedback information, and selecting feedback information corresponding to the minimum communication distance information as communication feedback information of a target worker; and analyzing the communication feedback information of the target staff based on a preset identity verification algorithm to obtain the target staff information of the production area.
According to the embodiment of the invention, the first communication equipment sends the broadcast query instruction and receives the feedback information returned by the second communication equipment worn by the worker, so that a plurality of communication distance information can be obtained; the communication feedback information of the target staff can be determined by determining a plurality of corresponding communication distance information and selecting the feedback information corresponding to the minimum communication distance information through the receiving time of the feedback information; the working procedure production condition of the whole production area can be considered by selecting the working staff close to the middle area as much as possible, the attention of the working staff to the working procedure is further improved, the feedback information is analyzed by using a preset identity verification algorithm, so that the identity and related information of the target working staff are acquired, reminding can be accurately sent, and the production efficiency of the working staff is effectively improved.
In an alternative embodiment, before the step of transmitting the reminding instruction to the terminal device of the staff according to the staff information, the method includes: acquiring process number information and historical actual time length information of all completed processes in a preset time period, and pre-training a man-hour prediction model according to the process number information and the historical actual time length information; inputting all waiting working procedures in the current time period and working procedure number information corresponding to the working procedure in execution into a pre-trained working hour prediction model to obtain predicted working procedure completion time; and taking the process number information and the predicted process completion time as reminding instructions for transmitting to terminal equipment of staff.
According to the embodiment of the invention, the number information and the historical actual time length information of the finished working procedures are combined through the pre-training working hour prediction model, so that the finishing time length of each working procedure is accurately estimated; inputting the number information of the waiting working procedure and the executing working procedure in the current time period into a working hour prediction model, so as to obtain predicted working procedure completion time; the staff is reminded to pay attention to the working procedure completion time in execution or waiting, and the production progress is accelerated, so that the production efficiency is improved, the fluency of the whole working procedure is improved, and the working procedure blocking delay is avoided.
In an alternative embodiment, the method further comprises: identifying second state information of all finished procedures, and acquiring actual duration information and preset duration information of all finished procedures; if the second state information of all the completed working procedures is the non-overtime state information, obtaining average actual time length information and average preset time length information through calculation based on the actual time length information and the preset time length information of all the completed working procedures; acquiring the difference value between the average actual time length information and the average preset time length information; and if the difference value is higher than a preset difference value threshold value, shortening the preset duration based on the difference value, and obtaining updated preset duration information.
The embodiment of the invention can obtain the difference between the average actual duration and the average preset duration by comparing the actual duration with the preset duration; if the difference is higher than the preset difference threshold, the time required for actually completing the working procedures is shorter than the preset time, the preset time length standard is set too high, and the preset time length of each working procedure is shortened, so that the conversion between the working procedures is tighter, and the production efficiency is improved.
In a second aspect, the present invention provides a device for dynamically displaying and reminding production information of an enterprise project, the device comprising:
The order information acquisition module is used for acquiring enterprise project number information and production label information corresponding to the order based on the order number information;
the project information acquisition module is used for acquiring process number information and preset duration information corresponding to each process required by the order in the enterprise project production flow based on the enterprise project number information, and acquiring first state information corresponding to each process required by the order in real time based on the process number information;
the production information acquisition module is used for acquiring actual time point information corresponding to each procedure required by the order in the enterprise project production flow in real time based on the production label information, the procedure number information and the first state information, and acquiring actual time length information of the completed procedure based on the actual time point information;
the process state analysis module is used for acquiring second state information corresponding to the completed process based on preset time length information and actual time length information of the completed process;
the information display reminding module is used for transmitting the process number information, the first state information, the actual time point information and the second state information of the completed process corresponding to each process required by the order to the terminal equipment of the enterprise project manager for display; and transmitting a reminding instruction to the terminal equipment of the staff based on the second state information of the completed working procedure and the working procedure number information for reminding.
In a third aspect, the present invention provides a computer device comprising: the system comprises a memory and a processor, wherein the memory and the processor are in communication connection, the memory stores computer instructions, and the processor executes the computer instructions so as to execute the enterprise project production information dynamic display reminding method according to the first aspect or any implementation mode corresponding to the first aspect.
In a fourth aspect, the present invention provides a computer readable storage medium, where computer instructions are stored on the computer readable storage medium, where the computer instructions are configured to cause a computer to perform the method for dynamically displaying and reminding enterprise item production information according to the first aspect or any one of the embodiments corresponding to the first aspect.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present invention, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.
FIG. 1 is a flow chart of a method for dynamically displaying reminders for production information of an enterprise project according to an embodiment of the present invention;
FIG. 2 is a schematic diagram of an enterprise project production information display interface for dynamically displaying a reminder of enterprise project production information according to an embodiment of the present invention;
FIG. 3 is a flow chart of another method for dynamically displaying reminders for production information of an enterprise project according to an embodiment of the present invention;
FIG. 4 is a flow chart of a method for dynamically displaying reminders for production information of another enterprise item in accordance with an embodiment of the present invention;
FIG. 5 is a character coordinate diagram of a method for dynamically displaying reminders for production information of yet another enterprise item in accordance with an embodiment of the present invention;
FIG. 6 is a flow chart of a method for dynamically displaying reminders for production information of another enterprise item in accordance with an embodiment of the present invention;
FIG. 7 is a schematic diagram of module components of an enterprise project production information dynamic display reminding device according to an embodiment of the invention;
fig. 8 is a schematic diagram of a hardware structure of a computer device according to an embodiment of the present invention.
Detailed Description
For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
In accordance with an embodiment of the present invention, there is provided an embodiment of a method for dynamically displaying reminders for production information for an enterprise item, it being noted that the steps illustrated in the flowcharts of the figures may be performed in a computer system, such as a set of computer executable instructions, and that although a logical order is illustrated in the flowcharts, in some cases the steps illustrated or described may be performed in an order different from that herein.
In this embodiment, a method for dynamically displaying and reminding production information of an enterprise item is provided, which can be used in the above-mentioned computer device, and fig. 1 is a flowchart of a method for dynamically displaying and reminding production information of an enterprise item according to an embodiment of the present invention, as shown in fig. 1, where the flowchart includes the following steps:
step S101, acquiring enterprise project number information and production label information corresponding to an order based on the order number information.
Note that the order number information refers to a number for uniquely identifying one order. The enterprise project number information refers to unique identification numbers set for different projects inside the enterprise, and is used for managing and tracking execution conditions of orders in the projects. The production label information refers to a unique identification label set by an enterprise for a production product placed by an order entering a production line, and is used for recording time information of the product placed by the order in each process. An order may correspond to a plurality of products, so that an order number may correspond to one or more product production label information; similarly, each product corresponds to a type of business item, and thus a certain order number may also correspond to one or more business item number information.
For example, the order number DD0001 is used to identify a specific order, three products are placed in the order, the label information label A, the label B and the label C correspond to the production label of the three products, each product corresponds to one enterprise production item, and three enterprise production items KB-01, KB-02 and KB-03 are all available.
Step S102, based on the enterprise project number information, process number information and preset duration information corresponding to each process required by the order in the enterprise project production process are obtained, and based on the process number information, first state information corresponding to each process required by the order is obtained in real time.
It should be noted that the process refers to a step of completing a specific operation in the production process of the product, and each process has a number for unique identification, i.e., process number information. The first state information refers to the completion condition of each procedure of the order in the production line; the first state information includes: a completed state, an executing state, and a waiting state. The preset time length information is a production time length set by the enterprise for each process in each project, that is, a time taken for the semi-finished product to enter into completion of one process.
Specifically, the process number information and the preset duration information corresponding to each process are obtained, and the duration and the number files can be queried, preconfigured and read through a database; the first state information corresponding to each process needed by the order can be obtained in real time based on the process number information, and the product state under a certain process can be automatically recorded by establishing a production monitoring system or uploaded by a worker in real time.
Illustratively, there is one business item number KB-01, which requires three procedures to complete. The process numbers are GX1, GX2 and GX3, and the preset time length information is 2 hours, 3 hours and 4 hours respectively. In the actual production process, the first state information of the order in each process may be acquired in real time, for example, the first state information of the process GX1 is a completed state, the first state information of the process GX2 is an executing state, and the first state information of the process GX3 is a waiting state.
Step S103, based on the production label information, the process number information and the first state information, acquiring actual time point information corresponding to each process required by the order in the enterprise project production flow in real time, and acquiring actual time length information of the completed process based on the actual time point information.
The actual time point information includes: actual start time information and actual end time information. The production tag information may correspond to order number, process number, and time stamp information; the production process is related to the order number, the procedure number and the time stamp by means of scanning by a machine device or manual input.
Illustratively, on an automated production line, the points in time at which the product entered and exited each process are scanned by a sensor are stored in a database, and the actual start and end times are extracted by querying the database to match the process number information with the first status information.
Step S104, obtaining second state information corresponding to the completed process based on the preset time length information and the actual time length information of the completed process.
The second state information refers to a state obtained by judging whether the process has timed out or not by judging the state of the completed process, and includes: timeout state and not timeout state. When the actual time length exceeds the preset time length, the working procedure is considered to be in a timeout state; when the actual time period does not exceed the preset time period, the process is considered to be in an un-timed-out state.
Step S105, transmitting the process number information, the first state information, the actual time point information and the second state information of the completed process corresponding to each process required by the order to the terminal equipment of the enterprise project manager for display; and transmitting a reminding instruction to the terminal equipment of the staff based on the second state information of the completed working procedure and the working procedure number information for reminding.
Specifically, the process related information can be displayed through a visual interface at the terminal equipment of the enterprise project manager; the reminding can be transmitted to the terminal equipment of the staff through a communication mode by packaging the state information and the procedure number, and the communication mode adopts a popup notification mode, a mail mode or an intra-application notification mode which is self-developed by enterprises. As shown in FIG. 2, the schematic diagram of the enterprise project production information display interface provided by the embodiment of the invention can enable staff to intuitively see the completion state of each process of placing a certain product on an order.
According to the embodiment of the invention, the process state of the order in the production flow is monitored in real time by acquiring the enterprise item number information and the production label information corresponding to the order and combining the process number information, the first state information and the actual time point information which are acquired in real time; various information of the working procedure is displayed at a manager terminal, an enterprise manager can know the production progress and state at any time, prompt the staff to conduct project production, timely adjust decision making, enhance working efficiency, analyze the completion condition of the production working procedure, judge that abnormal working procedures exist, transmit reminding instructions to the terminal equipment of the staff, timely remind the staff to conduct the next working procedure, enhance staff cooperation and work efficiency, and therefore the production efficiency of enterprise projects is effectively improved.
In this embodiment, a method for dynamically displaying and reminding production information of an enterprise item is provided, which can be used for the computer and the like, and fig. 3 is a flowchart of a method for dynamically displaying and reminding production information of an enterprise item according to an embodiment of the present invention, as shown in fig. 3, the flowchart includes the following steps:
step S301, acquiring enterprise project number information and production label information corresponding to the order based on the order number information. Please refer to step S101 in the embodiment shown in fig. 1 in detail, which is not described herein.
Step S302, based on the enterprise project number information, process number information and preset duration information corresponding to each process required by the order in the enterprise project production process are obtained, and based on the process number information, first state information corresponding to each process required by the order is obtained in real time. Please refer to step S102 in the embodiment shown in fig. 1 in detail, which is not described herein.
Step S303, based on the production label information, the process number information and the first state information, acquiring actual time point information corresponding to each process required by the order in the enterprise project production flow in real time, and acquiring actual time length information of the completed process based on the actual time point information.
Specifically, the step S303 includes:
In step S3031, first status information of each process required for the order in the enterprise project production process is identified.
In step S3032, if the first state information is the in-process state, the corresponding process is the in-process, and the actual start time information of the in-process is acquired based on the production tag information and the process number information, and the actual end time is set to a null value.
In step S3033, if the first state information is the waiting state, the corresponding process is the waiting process, and the actual start time information and the actual end time are set to null values.
Step S3034, if the first state information is the completed state, the corresponding process is the completed process, and the actual start time information and the actual end time information of the completed process are obtained based on the production label information and the process number information; and calculating the difference between the actual starting time information and the actual ending time information of the completed process as the actual duration information of the completed process.
Illustratively, first state information identifying each process required for the order, representing the execution state of the process, is provided for storing different point-in-time data according to different states. If a certain product of a certain order includes three processes GX1, GX2, GX3, it is completed, executing, waiting; according to the production label information and the process number information, the timestamp information of GX1 is obtained, the actual starting time is 2023-01-02 am 8, and the actual ending time is 2023-01-02 am 10 after the timestamp calculation. Calculating actual duration information to be 2 hours; similarly, the actual starting time information of GX2 is obtained through timestamp calculation and is 2023-01-02 am 11, and the actual ending time is null; the actual start time and the actual end time of GX3 are both set to null values. The time information in the production process is acquired in real time according to the preset time interval, so that the process state of a certain product of a certain order is continuously changed, and enterprise management personnel are helped to monitor the real-time production progress.
According to the embodiment of the invention, through the recording of the actual starting time and the actual ending time, the execution state of each working procedure including the completed, executing and waiting states can be more accurately obtained; obtaining the actual duration information of the completed working procedure by calculating the difference between the actual starting time and the actual ending time of the completed working procedure, and providing a data basis for judging whether the working procedure has a overtime abnormal state or not; the detailed analysis of the actual time point information and the state information is adopted to obtain more comprehensive and accurate production information, so that enterprises can be helped to monitor and manage various state changes of the working procedures in the production process better, and the production efficiency of the project and the production quality of the working procedures are further improved.
Step S304, obtaining second state information corresponding to the completed process based on the preset time length information and the actual time length information of the completed process.
Specifically, the step S304 includes:
step S3041, determining whether the preset duration information of the completed process is greater than the actual duration information of the completed process.
In step S3042, if yes, the second status information of the completed process is marked as an un-timed-out status.
Step S3043, if not, the second status information of the completed process is marked as a timeout status.
By way of example, the preset duration and the actual duration of the completed process GX1 may be determined by a computer program; assuming that the preset duration is 3 hours and the actual duration is 2 hours, the preset duration is longer than the actual duration, and different states are marked by using Boolean values or digital codes, for example, false represents that timeout is not performed and true represents that timeout is performed. Boolean values or digital codes are all general data types, and are easier to parse and process by a computer program when data interaction is performed with a device.
Step S305, transmitting the process number information, the first state information, the actual time point information and the second state information of the completed process corresponding to each process required by the order to the terminal equipment of the enterprise project manager for displaying; and transmitting a reminding instruction to the terminal equipment of the staff based on the second state information of the completed working procedure and the working procedure number information for reminding. Please refer to step S105 in the embodiment shown in fig. 1 in detail, which is not described herein.
The embodiment of the invention monitors whether each finished procedure is overtime or not in real time by comparing the preset time length with the actual time length; the actual time length is found to exceed the preset time length, and the actual time length can be marked as a time-out state, so that workers or management staff can be accurately reminded of the abnormal delay condition of production, the delay interruption of all working procedures caused by the delay of a certain working procedure in the order production process is avoided, and the whole project production efficiency is effectively improved.
In this embodiment, a method for dynamically displaying and reminding production information of an enterprise item is provided, which can be used for the computer and the like, and fig. 4 is a flowchart of a method for dynamically displaying and reminding production information of an enterprise item according to an embodiment of the present invention, as shown in fig. 4, the flowchart includes the following steps:
step S401, acquiring enterprise project number information and production label information corresponding to the order based on the order number information. Please refer to step S101 in the embodiment shown in fig. 1 in detail, which is not described herein.
Step S402, based on the enterprise project number information, acquiring process number information and preset duration information corresponding to each process required by the order in the enterprise project production process, and acquiring first state information corresponding to each process required by the order in real time based on the process number information. Please refer to step S102 in the embodiment shown in fig. 1 in detail, which is not described herein.
Step S403, based on the production label information, the process number information and the first status information, acquiring real time point information corresponding to each process required by the order in the enterprise project production flow in real time, and acquiring real time length information of the completed process based on the real time point information. Please refer to step S103 in the embodiment shown in fig. 1 in detail, which is not described herein.
Step S404, obtaining second state information corresponding to the completed process based on the preset time length information and the actual time length information of the completed process. Please refer to step S104 in the embodiment shown in fig. 1 in detail, which is not described herein.
Step S405, transmitting the process number information, the first state information, the actual time point information and the second state information of the completed process corresponding to each process required by the order to the terminal equipment of the enterprise project manager for displaying; and transmitting a reminding instruction to the terminal equipment of the staff based on the second state information of the completed working procedure and the working procedure number information for reminding.
Specifically, the step S405 includes:
in step S4051, the process number information, the first status information, the actual time point information, and the second status information of the completed process corresponding to each process required for the order are transmitted to the terminal device of the enterprise project manager for display.
Step S4052, identifying second status information of the completed process; and if the second state information of the completed process is in a timeout state, acquiring the process number information of the completed process, determining a production area of the completed process, and obtaining sensor information corresponding to the production area.
The sensor information refers to equipment or technical information capable of sensing the association of the production environment with the staff, such as a video camera, a communication device, a motion sensor device, and the like.
Step S4053, based on the sensor information, the worker information of the production area in which the process is completed is obtained.
In an alternative embodiment, when the sensor information is image information, the image information characterizes a video frame of a production area of a procedure photographed by the camera or photo frame information of the production area photographed in real time, step S4053 includes:
a1, acquiring first coordinate information of a production area of which the process is finished according to the image information, and acquiring a plurality of second coordinate information which accords with a preset character model in the image information according to a preset image processing algorithm.
A2, calculating coordinate distance difference values of the first coordinate information and the plurality of second coordinate information to serve as coordinate distance information, and selecting the second coordinate information corresponding to the minimum coordinate distance information to serve as target staff coordinate information.
A3, acquiring image information of the character model with corresponding coordinates according to the coordinate information of the target staff, and acquiring the information of the target staff in the production area through a preset image recognition algorithm.
It should be noted that, the preset image processing algorithm refers to a predefined algorithm for processing image information, which is used for extracting target information from image data, such as an algorithm for edge detection, face recognition, etc.; the preset image recognition algorithm is an algorithm for analyzing and recognizing an image according to preset conditions, such as a deep learning algorithm of a cyclic neural network, a convolutional neural network, and the like.
Illustratively, referring to fig. 5, first coordinate information (X50, Y50) of the first process production area a50 is acquired from image information (a production area video picture taken by a camera or a photo picture taken in real time). The first coordinate information may be at least one coordinate point information within the outline of the production area. And identifying and acquiring a plurality of second coordinate information which accords with the preset character model in the image information by using a preset image processing algorithm and a neural network technology. For example, the second coordinate information (X51, Y51) of the worker P51, the second coordinate information (X52, Y52) of the worker P52, and the second coordinate information (X53, Y53) of the worker P53 are identified in the figure. Then, a coordinate distance difference between the first coordinate information and the second coordinate information is calculated. The distance information L1, L2, L3 (i.e., the distance L1 from the worker P51 to the first process production area a50, the distance L2 from the worker P52 to the first process production area a50, and the distance L3 from the worker P53 to the first process production area a 50) are compared, and the worker corresponding to the smallest distance is selected as the target worker. For example, if L1 is the minimum distance, the worker P51 is identified as the first worker, and its coordinate information (X51, Y51) is the coordinate information of the target worker. Finally, according to the coordinate information of the target staff, the image information of the character model corresponding to the coordinates is obtained, and the information of the target staff, such as the identification work number, is identified through a preset image identification algorithm. The detailed information of the target staff can be inquired through the work number information, wherein the detailed information comprises the work number, the ID of the terminal equipment, the working state and the like.
According to the embodiment of the invention, the first coordinate information of the production area with the finished working procedure is obtained by analyzing the image information, including the video picture of the production area shot by the camera or the picture shot in real time, and meanwhile, a plurality of second coordinate information which accords with the preset character model can be extracted through a preset image processing algorithm; the coordinate information of the target staff can be determined by calculating the coordinate distance difference value of the first coordinate information and the plurality of second coordinate information and selecting the second coordinate information corresponding to the minimum coordinate distance information, the target staff can be monitored in real time, the position of the target staff can be accurately identified, the target staff closest to the working procedure can be guaranteed to respond to the reminding instruction in time, and therefore the production efficiency of the staff is effectively improved.
In an alternative embodiment, when the sensor information is communication distance information, the communication distance information characterizes a communication transmission distance between the first communication device at the center of the production area of the process and the second communication device worn by the worker, step S4053 includes:
b1, sending a broadcast query instruction through a first communication device positioned in a production area center of the working procedure, and receiving feedback information returned by a second communication device worn by a worker after receiving the broadcast query instruction.
And B2, acquiring a plurality of corresponding communication distance information based on the receiving time of the feedback information, and selecting the feedback information corresponding to the minimum communication distance information as the communication feedback information of the target staff.
And B3, analyzing communication feedback information of the target staff based on a preset identity verification algorithm to obtain the target staff information of the production area.
It should be noted that, the communication distance information is obtained by calculating the instruction transmission time in the communication process of the wireless communication modules, and is used for reflecting the distance between the two wireless communication modules; the first wireless communication device broadcasts and sends a query instruction, and the second wireless communication device returns feedback information after receiving the query instruction, wherein the feedback information comprises clock information and equipment ID information. By calculation of the reception time, communication distance information can be obtained. The preset identity verification algorithm is used for analyzing the feedback information to obtain the equipment ID of the staff, and the identity verification algorithm can be an encryption and decryption algorithm, a digital signature algorithm, protocol authentication and the like.
For example, the feedback information includes a plurality of communication distance information of three staff members P51, P52, P53, which are L1, L2, and L3, respectively, wherein L1 is a minimum distance, and corresponds to the feedback information of P51. And analyzing the communication feedback information of the P51 through an identity verification algorithm (such as an encryption and decryption algorithm, a digital signature algorithm and protocol authentication) to obtain the equipment ID information of the staff of the P1. In practical applications, to eliminate the reference clock error between the first communication device and the second communication device, the communication calibration clock is performed with a fixed-position wireless communication module for a certain period of time, such as 1 hour and 1 day.
According to the embodiment of the invention, the first communication equipment sends the broadcast query instruction and receives the feedback information returned by the second communication equipment worn by the worker, so that the communication distance information can be obtained; the communication feedback information of the target staff can be determined by determining a plurality of corresponding communication distance information and selecting the feedback information corresponding to the minimum communication distance information through the receiving time of the feedback information; the working procedure production condition of the whole production area can be considered by selecting the working staff close to the middle area as much as possible, the attention of the working staff to the working procedure is further improved, the feedback information is analyzed by using a preset identity verification algorithm, so that the identity and related information of the target working staff are acquired, reminding can be accurately sent, and the production efficiency of the working staff is effectively improved.
Step S4054, process number information and historical actual duration information of all completed processes in a preset time period are obtained, and a man-hour prediction model is pre-trained according to the process number information and the historical actual duration information.
The working procedure completion speed is accelerated by reminding a worker by predicting the completion time of the working procedure to be completed through the pre-training working time prediction model.
Step S4055, inputting all waiting processes and the process number information corresponding to the executing process in the current time period into the pre-trained working hour prediction model to obtain the predicted process completion time.
The preset time period is one week, the number information of the completed working procedure is GX1 and GX2, the historical actual time information data sets corresponding to the two working procedures are collected, the data are input into the deep learning model to train a working hour prediction model after feature extraction and preprocessing, the working procedure number is input into the model, and the model predicts the completion time of the working procedure to be completed according to the previous training experience and the historical actual time of the completed working procedure.
In step S4056, the process number information and the predicted process completion time period are used as the reminding instruction.
According to the embodiment of the invention, the number information and the historical actual time length information of the finished working procedures are combined through the pre-training working hour prediction model, so that the finishing time length of each working procedure is accurately estimated; inputting the number information of the waiting working procedure and the executing working procedure in the current time period into a working hour prediction model, so as to obtain predicted working procedure completion time; the staff is reminded to pay attention to or check the working procedure completion time in execution or waiting, and the production progress is accelerated, so that the production efficiency is improved, the fluency of the whole working procedure is improved, and the working procedure blocking delay is avoided.
Step S4057, according to the staff information, a reminding instruction is transmitted to the terminal equipment of the staff for reminding.
For example, the reminding instruction may be that the predicted completion time of the process GX1 is 3 hours, the predicted completion time of the process GX2 is 4 hours, and the instruction is transmitted by a wireless communication mode according to the ID and the equipment type of the terminal equipment of the staff. The staff can see the received reminder instructions on their terminal devices, and the display form of the reminder instructions depends on the system architecture, software applications etc. in the terminal devices.
According to the embodiment of the invention, the overtime state in the second state information of the finished working procedure is identified, and a reminding instruction is timely sent to related staff; the corresponding production area is determined according to the process number information, the sensor information of the area is obtained, then the staff needing to receive the reminding instruction is determined, the reminding instruction is directly sent to the staff related to the process and the production area, the staff pay attention to the overtime state of the process, the process problem needing to be processed is rapidly known and solved, the production efficiency is effectively improved, and the occurrence of the delay condition of the process is greatly avoided.
In this embodiment, a method for dynamically displaying and reminding production information of an enterprise item is provided, which can be used for the computer and the like, and fig. 6 is a flowchart of a method for dynamically displaying and reminding production information of an enterprise item according to an embodiment of the present invention, as shown in fig. 6, the flowchart includes the following steps:
Step S601, acquiring enterprise project number information and production label information corresponding to the order based on the order number information. Please refer to step S101 in the embodiment shown in fig. 1 in detail, which is not described herein.
Step S602, based on the enterprise project number information, acquiring process number information and preset duration information corresponding to each process required by the order in the enterprise project production process, and acquiring first state information corresponding to each process required by the order in real time based on the process number information. Please refer to step S102 in the embodiment shown in fig. 1 in detail, which is not described herein.
Step S603, based on the production label information, the process number information and the first status information, acquiring real time point information corresponding to each process required by the order in the enterprise project production flow in real time, and acquiring real time length information of the completed process based on the real time point information. Please refer to step S103 in the embodiment shown in fig. 1 in detail, which is not described herein.
Step S604, acquiring second status information corresponding to the completed process based on the preset duration information and the actual duration information of the completed process. Please refer to step S104 in the embodiment shown in fig. 1 in detail, which is not described herein.
Step S605, transmitting the process number information, the first state information, the actual time point information and the second state information of the completed process corresponding to each process required by the order to the terminal equipment of the enterprise project manager for display; and transmitting a reminding instruction to the terminal equipment of the staff based on the second state information of the completed working procedure and the working procedure number information for reminding. Please refer to step S105 in the embodiment shown in fig. 1 in detail, which is not described herein.
Step S606, the second state information of all the completed processes is identified, and the actual duration information and the preset duration information of all the completed processes are obtained.
The state flag information of the GX1 is normal, the actual time length is 2 hours, and the preset time length is 3 hours; the state mark information of GX2 is normal, the actual time length is 4 hours, and the preset time length is 4 hours; the state flag information of GX3 is normal, the actual time length is 5 hours, and the preset time length is 5 hours.
Step S607, if the second status information of all the completed procedures is the status information not exceeding the time-out status information, obtaining the average actual duration information and the average preset duration information by calculation based on the actual duration information and the preset duration information of all the completed procedures; acquiring the difference value between the average actual time length information and the average preset time length information; if the difference value is higher than the preset difference value threshold value, shortening the preset time length based on the difference value to obtain updated preset time length information.
For example, the second state information of all the procedures in step S606 is not timeout, and the average actual duration is calculated to be 3.66 hours, the average preset duration is 4 hours, and the difference is 0.34 hours based on the actual duration information and the preset duration information of all the completed procedures. If the preset difference threshold is 0.2 hours, that is, 5% of 4 hours, and 0.34 hours have exceeded 0.2 hours, the completion speed of the procedure is faster, so that the preset duration is shortened by 5% downwards, that is, the preset duration in GX1 is shortened by 5% by 3 hours to obtain 2.85 hours, the preset duration in GX2 is shortened by 5% to obtain 3.8 hours, and the preset duration in GX3 is shortened by 5% to obtain 4.75 hours.
The embodiment of the invention can obtain the difference between the average actual duration and the average preset duration by comparing the actual duration with the preset duration; if the difference is higher than the preset difference threshold, the time required for actually completing the working procedures is shorter than the preset time, the preset time length standard is set too high, and the preset time length of each working procedure is shortened, so that the conversion between the working procedures is tighter, and the production efficiency is improved.
In this embodiment, a dynamic display reminding device for enterprise project production information is further provided, and the device is used for implementing the foregoing embodiments and preferred embodiments, and is not described again. As used below, the term "module" may be a combination of software and/or hardware that implements a predetermined function. While the system described in the following embodiments is preferably implemented in software, implementation in hardware, or a combination of software and hardware, is also possible and contemplated.
The enterprise project production information dynamic display reminding device provided in this embodiment, as shown in fig. 7, includes:
the order information acquisition module 701 is configured to acquire enterprise item number information and production label information corresponding to an order based on the order number information;
the project information acquisition module 702 is configured to acquire, based on the enterprise project number information, process number information and preset duration information corresponding to each process required by the order in the enterprise project production process, and acquire, based on the process number information, first state information corresponding to each process required by the order in real time;
the production information acquisition module 703 is configured to acquire, in real time, actual time point information corresponding to each process required by the order in the production flow of the enterprise project based on the production label information, the process number information and the first status information, and acquire actual time length information of the completed process based on the actual time point information;
a process state analysis module 704, configured to obtain second state information corresponding to the completed process based on preset duration information and actual duration information of the completed process;
the information display reminding module 705 is configured to transmit, to a terminal device of an enterprise project manager, process number information, first state information, actual time point information, and second state information of a completed process corresponding to each process required by an order, for display; and transmitting a reminding instruction to the terminal equipment of the staff based on the second state information of the completed working procedure and the working procedure number information for reminding.
In some alternative embodiments, the actual point-in-time information includes: actual start time information and actual end time information; the first state information includes: a completed state, an executing state, and a waiting state; the second state information includes: timeout state and not timeout state.
In some alternative embodiments, the production information acquisition module 703 includes:
the state identification unit is used for identifying first state information of each procedure required by the order in the enterprise project production flow;
the first time acquisition unit is used for acquiring the actual starting time information of the working procedure in execution based on the production label information and the working procedure number information and setting the actual ending time to be a null value if the first state information is the working procedure in execution;
the second time acquisition unit is used for setting the actual starting time information and the actual ending time to be null values if the first state information is in the waiting state and the corresponding working procedure is in the waiting working procedure;
a third time obtaining unit, configured to obtain actual start time information and actual end time information of the completed process based on the production tag information and the process number information, if the first state information is the completed state, the corresponding process is the completed process; and calculating the difference between the actual starting time information and the actual ending time information of the completed process as the actual duration information of the completed process.
In some alternative embodiments, the process state analysis module 704 includes:
the state analysis marking unit is used for judging whether the preset time length information of the completed process is larger than the actual time length information of the completed process; if yes, marking the second state information of the finished working procedure as an overtime-free state; if not, the second state information of the completed process is marked as a timeout state.
In some alternative embodiments, the information display reminder module 705 includes:
the information display unit is used for transmitting the process number information, the first state information, the actual time point information and the second state information of the completed process corresponding to each process required by the order to the terminal equipment of the enterprise project manager for display;
a staff information acquisition unit for acquiring staff information of the production area of the finished process according to the sensor information;
the working hour prediction model training unit is used for acquiring the working hour number information and the historical actual time length information of all the completed working hours in the preset time period and pre-training the working hour prediction model according to the working hour number information and the historical actual time length information;
the working hour prediction unit is used for inputting all waiting working procedures in the current time period and working procedure number information corresponding to the working procedure in execution into the pre-trained working hour prediction model to obtain predicted working procedure completion time;
The instruction generation unit is used for taking the process number information and the predicted process completion time length as reminding instructions;
the instruction transmission unit is used for transmitting a reminding instruction to terminal equipment of the staff according to the staff information.
In some alternative embodiments, the staff information acquisition unit includes:
the coordinate recognition subunit is used for acquiring first coordinate information of a production area of which the procedure is finished according to the image information and acquiring a plurality of second coordinate information which accords with a preset character model in the image information according to a preset image processing algorithm;
the coordinate calculation subunit is used for calculating coordinate distance difference values of the first coordinate information and the plurality of second coordinate information, taking the coordinate distance difference values as coordinate distance information, and selecting the second coordinate information corresponding to the minimum coordinate distance information as the coordinate information of the target staff;
the personnel information acquisition subunit is used for acquiring image information of the character model with corresponding coordinates according to the coordinate information of the target personnel, and acquiring the target personnel information of the production area through a preset image recognition algorithm;
or,
the communication transmission subunit is used for sending a broadcast query instruction through first communication equipment positioned in a production area center of the working procedure and receiving feedback information returned by second communication equipment worn by a worker after receiving the broadcast query instruction;
The information feedback subunit is used for acquiring a plurality of corresponding communication distance information based on the receiving time of the feedback information, and selecting the feedback information corresponding to the minimum communication distance information as the communication feedback information of the target staff;
and the personnel information acquisition subunit is used for analyzing the communication feedback information of the target personnel based on a preset identity verification algorithm to obtain the target personnel information of the production area.
In some alternative embodiments, the apparatus further comprises:
the process information identification module is used for identifying second state information of all the completed processes and acquiring actual duration information and preset duration information of all the completed processes;
the preset time length updating module is used for obtaining average actual time length information and average preset time length information through calculation based on the actual time length information and the preset time length information of all the completed processes if the second state information of all the completed processes is non-overtime state information; acquiring the difference value between the average actual time length information and the average preset time length information; if the difference value is higher than the preset difference value threshold value, shortening the preset time length based on the difference value to obtain updated preset time length information.
According to the embodiment of the invention, the process state of the order in the production flow is monitored in real time by acquiring the enterprise item number information and the production label information corresponding to the order and combining the process number information, the first state information and the actual time point information which are acquired in real time; various information of the working procedure is displayed at a manager terminal, an enterprise manager can know the production progress and state at any time, prompt the staff to conduct project production, timely adjust decision making, enhance working efficiency, analyze the completion condition of the production working procedure, judge that abnormal working procedures exist, transmit reminding instructions to the terminal equipment of the staff, timely remind the staff to conduct the next working procedure, enhance staff cooperation and work efficiency, and therefore the production efficiency of enterprise projects is effectively improved.
Further functional descriptions of the above respective modules and units are the same as those of the above corresponding embodiments, and are not repeated here.
The enterprise project production information dynamic display reminding device in this embodiment is presented in the form of functional units, where the units refer to ASIC (Application Specific Integrated Circuit ) circuits, processors and memories that execute one or more software or firmware programs, and/or other devices that can provide the above functions.
The embodiment of the invention also provides computer equipment, which is provided with the enterprise project production information dynamic display reminding device shown in the figure 7.
Referring to fig. 8, fig. 8 is a schematic structural diagram of a computer device according to an alternative embodiment of the present invention, as shown in fig. 8, the computer device includes: one or more processors 10, memory 20, and interfaces for connecting the various components, including high-speed interfaces and low-speed interfaces. The various components are communicatively coupled to each other using different buses and may be mounted on a common motherboard or in other manners as desired. The processor may process instructions executing within the computer device, including instructions stored in or on memory to display graphical information of the GUI on an external input/output device, such as a display device coupled to the interface. In some alternative embodiments, multiple processors and/or multiple buses may be used, if desired, along with multiple memories and multiple memories. Also, multiple computer devices may be connected, each providing a portion of the necessary operations (e.g., as a server array, a set of blade servers, or a multiprocessor system). One processor 10 is illustrated in fig. 8.
The processor 10 may be a central processor, a network processor, or a combination thereof. The processor 10 may further include a hardware chip, among others. The hardware chip may be an application specific integrated circuit, a programmable logic device, or a combination thereof. The programmable logic device may be a complex programmable logic device, a field programmable gate array, a general-purpose array logic, or any combination thereof.
Wherein the memory 20 stores instructions executable by the at least one processor 10 to cause the at least one processor 10 to perform a method for implementing the embodiments described above.
The memory 20 may include a storage program area that may store an operating system, at least one application program required for functions, and a storage data area; the storage data area may store data created according to the use of the computer device, etc. In addition, the memory 20 may include high-speed random access memory, and may also include non-transitory memory, such as at least one magnetic disk storage device, flash memory device, or other non-transitory solid-state storage device. In some alternative embodiments, memory 20 may optionally include memory located remotely from processor 10, which may be connected to the computer device via a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.
Memory 20 may include volatile memory, such as random access memory; the memory may also include non-volatile memory, such as flash memory, hard disk, or solid state disk; the memory 20 may also comprise a combination of the above types of memories.
The computer device also includes a communication interface 30 for the computer device to communicate with other devices or communication networks.
The embodiments of the present invention also provide a computer readable storage medium, and the method according to the embodiments of the present invention described above may be implemented in hardware, firmware, or as a computer code which may be recorded on a storage medium, or as original stored in a remote storage medium or a non-transitory machine readable storage medium downloaded through a network and to be stored in a local storage medium, so that the method described herein may be stored on such software process on a storage medium using a general purpose computer, a special purpose processor, or programmable or special purpose hardware. The storage medium can be a magnetic disk, an optical disk, a read-only memory, a random access memory, a flash memory, a hard disk, a solid state disk or the like; further, the storage medium may also comprise a combination of memories of the kind described above. It will be appreciated that a computer, processor, microprocessor controller or programmable hardware includes a storage element that can store or receive software or computer code that, when accessed and executed by the computer, processor or hardware, implements the methods illustrated by the above embodiments.
Although the embodiments of the present invention have been described with reference to the accompanying drawings, various modifications and variations may be made by those skilled in the art without departing from the spirit and scope of the invention, and such modifications and variations fall within the scope defined by the appended claims.
Claims (12)
1. A method for dynamically displaying and reminding production information of an enterprise project, which is characterized by comprising the following steps:
acquiring enterprise project number information and production label information corresponding to an order based on the order number information;
acquiring process number information and preset duration information corresponding to each process required by the order in the enterprise project production flow based on the enterprise project number information, and acquiring first state information corresponding to each process required by the order in real time based on the process number information;
acquiring actual time point information corresponding to each process required by the order in the enterprise project production flow in real time based on the production label information, the process number information and the first state information, and acquiring actual time length information of completed processes based on the actual time point information;
acquiring second state information corresponding to the completed process based on preset duration information and actual duration information of the completed process;
Transmitting the process number information, the first state information, the actual time point information and the second state information of the completed process corresponding to each process required by the order to terminal equipment of enterprise project manager for display; and transmitting a reminding instruction to the terminal equipment of the staff based on the second state information of the completed working procedure and the working procedure number information for reminding.
2. The method of claim 1, wherein the actual point-in-time information comprises: actual start time information and actual end time information;
the first state information includes: a completed state, an executing state, and a waiting state;
the second state information includes: timeout state and not timeout state.
3. The method according to claim 2, wherein the acquiring, based on the production tag information, the process number information, and the first status information, actual time point information corresponding to each process required for the order in the enterprise item production process in real time, and acquiring, based on the actual time point information, actual time length information of the completed process, includes:
identifying first status information of each process required for an order in an enterprise project production process;
If the first state information is in the executing state, the corresponding process is the executing process, the actual starting time information of the executing process is obtained based on the production label information and the process number information, and the actual ending time is set to be a null value;
if the first state information is in a waiting state, the corresponding working procedure is a waiting working procedure, and the actual starting time information and the actual ending time are set to be null values;
if the first state information is the completed state, the corresponding process is the completed process, and the actual starting time information and the actual ending time information of the completed process are obtained based on the production label information and the process number information; and calculating the difference between the actual starting time information and the actual ending time information of the completed process as the actual duration information of the completed process.
4. The method according to claim 2, wherein the obtaining second state information corresponding to the completed process based on the preset duration information and the actual duration information of the completed process includes:
judging whether the preset time length information of the completed process is larger than the actual time length information of the completed process or not; if yes, marking the second state information of the finished working procedure as an overtime-free state; if not, marking the second state information of the completed working procedure as a timeout state.
5. The method according to claim 2, wherein the transmitting the alert instruction to the terminal device of the worker based on the second status information of the completed process and the process number information includes:
identifying second status information of the completed process; if the second state information of the completed working procedure is in a timeout state, the working procedure number information of the completed working procedure is obtained, the production area of the completed working procedure is determined, and the sensor information corresponding to the production area is obtained;
according to the sensor information, obtaining the staff information of the production area of the finished process;
and according to the information of the staff, transmitting a reminding instruction to terminal equipment of the staff.
6. The method of claim 5, wherein the sensor information is image information characterizing a production area video frame of a camera shooting process or photo frame information of a production area shot in real time;
and obtaining the staff information of the production area of the finished working procedure according to the sensor information, wherein the staff information comprises the following steps:
acquiring first coordinate information of a production area of the finished process according to the image information, and acquiring a plurality of second coordinate information which accords with a preset character model in the image information according to a preset image processing algorithm;
Calculating coordinate distance differences between the first coordinate information and the plurality of second coordinate information to serve as coordinate distance information, and selecting second coordinate information corresponding to minimum coordinate distance information to serve as target staff coordinate information;
and acquiring image information of the character model corresponding to the coordinates according to the coordinate information of the target staff, and acquiring the target staff information of the production area through a preset image recognition algorithm.
7. The method of claim 5, wherein the sensor information is communication distance information, the communication distance information representing a communication transmission distance between a first communication device at a production area center of the process and a second communication device worn by a worker;
and obtaining the staff information of the production area of the finished working procedure according to the sensor information, wherein the staff information comprises the following steps:
a first communication device positioned in a production area center of a working procedure sends a broadcast query instruction, and receives feedback information returned by a second communication device worn by a worker after receiving the broadcast query instruction;
acquiring a plurality of corresponding communication distance information based on the receiving time of the feedback information, and selecting feedback information corresponding to the minimum communication distance information as communication feedback information of a target worker;
And analyzing the communication feedback information of the target staff based on a preset identity verification algorithm to obtain the target staff information of the production area.
8. The method according to claim 5, wherein before the step of transmitting the reminding instruction to the terminal device of the worker according to the worker information, the method comprises:
acquiring process number information and historical actual time length information of all completed processes in a preset time period, and pre-training a man-hour prediction model according to the process number information and the historical actual time length information;
inputting all waiting working procedures in the current time period and working procedure number information corresponding to the working procedure in execution into a pre-trained working hour prediction model to obtain predicted working procedure completion time;
and taking the process number information and the predicted process completion time as reminding instructions for transmitting to terminal equipment of staff.
9. The method according to any one of claims 2-8, further comprising:
identifying second state information of all finished procedures, and acquiring actual duration information and preset duration information of all finished procedures;
If the second state information of all the completed working procedures is the non-overtime state information, obtaining average actual time length information and average preset time length information through calculation based on the actual time length information and the preset time length information of all the completed working procedures; acquiring the difference value between the average actual time length information and the average preset time length information;
and if the difference value is higher than a preset difference value threshold value, shortening the preset duration based on the difference value, and obtaining updated preset duration information.
10. An apparatus for dynamically displaying reminders for production information of an enterprise item, the apparatus comprising:
the order information acquisition module is used for acquiring enterprise project number information and production label information corresponding to the order based on the order number information;
the project information acquisition module is used for acquiring process number information and preset duration information corresponding to each process required by the order in the enterprise project production flow based on the enterprise project number information, and acquiring first state information corresponding to each process required by the order in real time based on the process number information;
the production information acquisition module is used for acquiring actual time point information corresponding to each procedure required by the order in the enterprise project production flow in real time based on the production label information, the procedure number information and the first state information, and acquiring actual time length information of the completed procedure based on the actual time point information;
The process state analysis module is used for acquiring second state information corresponding to the completed process based on preset time length information and actual time length information of the completed process;
the information display reminding module is used for transmitting the process number information, the first state information, the actual time point information and the second state information of the completed process corresponding to each process required by the order to the terminal equipment of the enterprise project manager for display; and transmitting a reminding instruction to the terminal equipment of the staff based on the second state information of the completed working procedure and the working procedure number information for reminding.
11. A computer device, comprising:
a memory and a processor, the memory and the processor are in communication connection, the memory stores computer instructions, and the processor executes the computer instructions, thereby executing the enterprise project production information dynamic display reminding method according to any one of claims 1 to 9.
12. A computer-readable storage medium having stored thereon computer instructions for causing a computer to perform the enterprise item production information dynamic display reminder method of any one of claims 1 to 9.
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