RU2011129365A - METHOD FOR BUILDING AND CONTROL FOR PERFORMANCE OF PRODUCTION SCHEDULES AND SYSTEM OF DEVICES FOR IMPLEMENTATION OF THE METHOD - Google Patents

Abstract

1. A method of constructing and monitoring the execution of production schedules, according to which, when performing direct planning of orders that did not start performing unfixed operations during the production schedule, the operations are sequentially selected from the set obtained by combining the sets of orders that did not start performing unfixed operations, the sequence in which choose operations, depends on the order of operations in the oriented graphs of the orders containing them, and for each of the selected operation, first, one primary resource is assigned for the operation from the associated operation of the list of admissible primary resources, for which, if there is more than one primary resource in the specified list, the ranking rules specified in the ordered list of primary resources ranking rules corresponding to the required operation are selected resource group, and with each selected ranking rule, the initial set of valid primary resources is broken, if used he first rule ranking, or otherwise break the first subset, obtained using the previous rule ranking on an ordered set of subsets, defined by the selected rule ranking, and after use of the last rule ranking is selected from one primary resource of the first subset obtained, i.e. one primary resource is selected, taken from the first equivalence class containing the most preferred primary resources, and the selected primary resource is assigned for

Claims (8)

1. A method of constructing and monitoring the execution of production schedules, according to which, when performing direct planning of orders that did not start performing unfixed operations during the production schedule, the operations are sequentially selected from the set obtained by combining the sets of orders that did not start performing unfixed operations, the sequence in which choose operations, depends on the order of operations in the oriented graphs of the orders containing them, and for each of the selected operation, first, one primary resource is assigned for the operation from the associated operation of the list of admissible primary resources, for which, if there is more than one primary resource in the specified list, the ranking rules specified in the ordered list of primary resources ranking rules corresponding to the required operation are selected resource group, and with each selected ranking rule, the initial set of valid primary resources is broken, if used he first rule ranking, or otherwise break the first subset, obtained using the previous rule ranking on an ordered set of subsets, defined by the selected rule ranking, and after use of the last rule ranking is selected from one primary resource of the first subset obtained, i.e. one primary resource is selected, taken from the first equivalence class containing the most preferred primary resources, and the selected primary resource is assigned to perform the operation, after which the planned characteristics of this operation are calculated based on the time instant of the required operation beginning, based on the duration of transportation of parts counted from time points of the calculated beginning of overlapping of previous operations in the oriented column of the order, and based on the standard durations of its execution stages, moreover, when calculating the planned characteristics of the operation, the availability of primary and secondary resources necessary for the operation is taken into account using the resource availability functions, the availability of components necessary for the operation is taken into account using the accessibility functions of components, the speed of the stages of the operation, calculated from the performance functions assigned to perform operations of the primary resource, and also take into account the possible need to perform the previous operation readjustments, then perform the correction of the availability functions of the primary and secondary resources and the availability functions of components so that, firstly, over the calculated time intervals of the operation and the previous readjustment operation, the availability of the primary resource designated for the operation was important to indicate that the primary the resource is busy for the operation and the previous readjustment operations, and secondly, during the calculated operation execution time interval the availability of secondary resources used by the operation was reduced by the number of units of secondary resources required to complete the operation, thirdly, starting from the time of the calculated start of the operation, the availability of the components used by the operation was reduced by the quantities of components required for the operation, and fourthly, starting from the time of the calculated completion of the operation, the availability of the components produced by the operation was increased by the resulting operations of the number of units of components, characterized in that when carrying out direct planning of orders and scheduled repairs that did not start performing unfixed operations during the construction of the production schedule for orders and scheduled repairs, the rank values are preliminarily calculated in such a way that, firstly, the rules for ranking orders and scheduled repairs are sequentially selected, and with each selected ranking rules break the initial set of orders and scheduled repairs if they use the first ranking rule, or, otherwise, break each its subset, obtained using the previous ranking rule, by an ordered set of subsets determined by the selected ranking rule, and, secondly, each rank in the resulting ordered sequence of subsets is compared so that the rank values of orders and scheduled repairs coincide in each subset , and, in addition, so that the rank values increase in the order of the subsets, i.e. thereby grouping orders and scheduled repairs into equivalence classes sorted in descending order of their relative importance and, which is the same, in increasing order, and then they carry out direct planning of orders and scheduled repairs that have not started performing unfixed operations in such a way that the values of the rank are sequentially selected in the order of their increase, and for each selected rank value, direct planning is carried out for those who did not start performing unfixed operations related to orders and scheduled repairs with the selected by rank, so that the operations are sequentially selected from the set obtained by combining the sets of orders that did not start performing unfixed operations and scheduled repairs having the selected rank value, the sequence in which the operations are selected depends on the order of operations in the oriented graphs of the orders containing them and scheduled repairs, and for each selected operation, one primary resource is first assigned to perform the operation from the associated operation of the list of permissible primary x resources, for which, if there is more than one primary resource in the indicated list, the ranking rules are sequentially selected, indicated in the ordered list of primary resources ranking rules corresponding to the resource group required for the operation, and with each selected ranking rule the initial set of valid primary resources is broken if they use the first ranking rule, or, otherwise, break its first subset obtained using the previous ranking rule ranking, on an ordered set of subsets defined by the selected ranking rule, and after using the last ranking rule, one primary resource is selected from the first received subset, i.e. one primary resource is selected, taken from the first equivalence class containing the most preferred primary resources, and the selected primary resource is assigned to perform the operation, after which the time of the calculated receipt of the operation in the queue of the primary resource assigned to perform the operation is calculated based on the time required to start the operation and on the basis of the durations of transportation of parts, counted from the time moments of the calculated beginning of the overlap of the previous planned operations in the oriented column of the order or planned repair and determined by the functions of the transportation duration, and then calculate the remaining planned characteristics of this operation based on the standard durations of its stages and based on the fact that this operation should be performed on the primary resource not earlier than the time of the estimated receipt of the operation into the queue of the primary resource and not earlier than the minimum possible time for the placement of unfixed operations on the primary resource, moreover, when calculating the plan The characteristics of the operation take into account the availability of the primary and secondary resources necessary for the operation using the resource availability functions, take into account the availability of the components necessary for the operation using the accessibility functions of the components, take into account the speed of the stages of the operation, calculated from the performance functions of the primary resource assigned to perform the operation, and also take into account the possible need to perform previous and subsequent readjustments, the fulfillment of which is determined by the functions of the readjustment duration of the primary resource assigned for the operation, then this operation is marked, as well as the previous and / or subsequent readjustment operations, if necessary, as planned and correct the availability functions of primary and secondary resources and the availability functions of components so that, firstly, during the calculated time intervals of the operation and the previous and subsequent operations, the readjustment of availability the primary resource assigned to perform the operation was important to indicate that the primary resource was occupied to perform the operation and the previous and subsequent readjustment operations, and secondly, during the calculated time interval of the operation, the availability of the secondary resources used by the operation was reduced by the required operations the number of units of secondary resources, thirdly, starting from the point in time of the calculated start of the operation, the availability of com lecturing was reduced by the number of units of components required to complete the operation, and fourthly, starting from the time of the estimated completion of the operation, the availability of components produced by the operation was increased by the number of units of units resulting from the operation, and the relative order of operations related to orders and scheduled repairs with the same rank value, on each primary resource is calculated so that each operation is selected To execute a primary resource from the operation queue, which is constructed separately for each rank value, moreover, if there are several operations in the queue at the time of selecting an operation from the queue, then the ranking rules specified in the ordered list of operation ranking rules associated with the primary resource are sequentially selected and using each selected ranking rule, the initial set of operations in the queue of the primary resource is broken down if the first ranking rule is used, or, in vnom case divide the first subset, obtained using the previous rule ranking on an ordered set of subsets, defined by the selected rule ranking, and after use of the last rank rule selecting one operation from the first subset obtained, i.e. one operation taken from the first equivalence class containing the most preferred operations. 2. The method according to claim 1, characterized in that in the process of its application carry out the following actions: - S1: save data describing the production model; - S2: calculate resource availability functions; - S3: calculate the performance functions of primary resources; - S4: calculate the functions of the duration of the readjustment of primary resources; - S5: calculate the standard cost functions of primary resources; - S6: calculate the duration function of the transport; - S7: calculate the transport distance function; - S8: for primary resources, ordered lists of operation ranking rules are calculated; - S9: for resource groups, ordered lists of primary resource ranking rules are calculated; - S10: lists of permissible types of operations are calculated for primary resources; - S11: for each production accounting unit (hereinafter referred to as EPU, where EPU is understood as orders, scheduled repairs, unscheduled repairs and changeover sequences), it is determined whether it is re-planned so that sequences of changeovers and unscheduled repairs, as well as orders and scheduled repairs not to be removed from the EPU directory and at the same time to be included in the production schedule; - S12: perform the construction of the accessibility functions of the components for the components indicated in the external arrivals and expenses, as well as for the components used and produced by the operations of the rescheduling EPUs, so that they first initialize the accessibility functions of the components with zero values on the entire time axis, and then sequentially select external arrivals, and for each selected external arrivals of the component edit the accessibility function of this component so that starting from the specified in the external parish Incoming completion points in time set available kit was increased by the specified amount in the outer ward kits units; - S13: carry out the construction of lists of fixed operations for primary resources in such a way that for each primary resource in the list of fixed operations are placed identifiers selected as a result of a search in the sequence of operations by the primary resource that did not start operations related to re-scheduled orders and scheduled repairs, and in addition, so that the identifiers of operations in the constructed list of fixed operations are in the same sequence in which they correspond descriptors of performance characteristics for these operations in the sequence of operations performed by this primary resource, or, in other words, in the same sequence in which these operations were to be performed in accordance with the previous production schedule; - S14: delete information describing the previous production schedule, in particular describing the sequence of operations with primary resources; - S15: mark all operations of all EPUs as unplanned; - S16: actualize the standard duration of the stages for re-scheduled orders that have not started to carry out operations to take into account the possible reduction or increase in the number of workpieces due to defective or predicted future occurrences, as well as due to the completion or forecast of future part quantities from stocks; - S17: if the need was specified for performing reverse planning, reverse planning is carried out for re-planned orders and scheduled repairs to determine the times of the required start of execution and the required completion of their operations; - S18: carry out the planning of completed re-execution, as well as beginning and non-completion of operations, of rescheduling EPUs in such a way that for each completed and not completed operation of each rescheduling EPU, the planned characteristics are first determined, and for the completed operation, all planned characteristics are determined by the actual characteristics of this operation, and for those who have begun and not completed the operation, firstly, they determine a part of the planned characteristics the tick of the operation according to the actual characteristics of the operation, depending on the state of the operation, and, secondly, calculate the remaining planned characteristics of the operation based on the standard duration of the stages, and when calculating the planned characteristics of the operation, the availability of primary and secondary resources necessary for the operation is taken into account resource availability functions, and also take into account the speed of the stages of the planned operation, calculated by the performance functions assigned go for the operation of the primary resource, then, when all the planned characteristics of the completed or beginning and not completed operations are defined, mark this operation as planned and perform the correction of the availability functions of primary and secondary resources and the availability functions of components so that, firstly , over the calculated time interval of the operation, the availability of the primary resource assigned to perform the operation was important to indicate that the primary resource is occupied for the operation, secondly, during the calculated time interval for the operation, the availability of the secondary resources used by the operation was reduced by the number of units of secondary resources required for the operation, and thirdly, starting from the time of the calculated start of the operation, the availability of the operations used by the operation of components was reduced by the number of units of components required for the operation, and, fourthly, starting from the point in time In order to complete the operation, the availability of components produced by the operation has been increased by the number of units of components obtained as a result of the operation, and in the end, the sequence of operations is adjusted for the operation assigned to the primary resource by adding a descriptor of the characteristics of the operation; - S19: delete those that did not start the operation of unplanned repairs and changeover sequences, as well as the EPUs that contained them, if these EPUs did not have operations; - S20: for primary resources, calculate the minimum possible time points for placing fixed operations; - S21: carry out direct planning of fixed operations of rescheduled orders and scheduled repairs in such a way that identifiers of fixed operations are sequentially selected from the set obtained by combining lists of fixed operations on primary resources, and the sequence in which operation identifiers are selected depends on the order of operations in EPUs containing them and depends on the order of transaction identifiers in the lists of fixed operations on primary resources, and for each of the fixed operation with the selected identifier, first calculate the time moment of the calculated receipt of the operation in the queue of the primary resource designated for the operation based on the time of the required start of the operation and based on the duration of transportation of parts counted from the moments of the estimated start of overlapping of the previous operations in the directed column of the EPU and determined by the functions of the duration of transportation, and then calculate the remaining planned characteristics of this operation and based on the standard durations of its stages and based on the fact that this operation should be performed on the primary resource not earlier than the time of the estimated receipt of the operation in the primary resource queue and not earlier than the minimum possible time of the placement of fixed operations on the primary resource, and relative to other fixed operations in the same sequence in which their identifiers are in the list of fixed operations of the primary resource, and when calculating the planned characteristics of the opera The equations take into account the availability of the primary and secondary resources necessary for the operation using the resource availability functions, take into account the availability of the components necessary for the operation using the accessibility functions of the components, take into account the speed of the stages of the planned operation, calculated by the performance functions of the primary resource assigned to perform the operation, and take into account the possible need to perform the previous readjustment operation, the duration of which th is determined by the function of the readjustment duration of the primary resource assigned for the operation, then this operation and the previous readjustment operation are marked, if necessary, as planned and correct the availability functions of the primary and secondary resources and the availability functions of components so that, firstly, over the calculated time intervals of the operation and the previous readjustment operation, the availability of the primary resource designated for the operation was available values to indicate that the primary resource is occupied for the operation and the previous readjustment operation, secondly, during the calculated time interval for the operation, the availability of the secondary resources used by the operation was reduced by the number of units of secondary resources required for the operation, and thirdly, starting since the time of the calculated start of the operation, the availability of components used by the operation has been reduced by the number of units required for the operation Itz of components, and fourthly, starting from the time of the estimated completion of the operation, the availability of components produced by the operation was increased by the number of units of components obtained as a result of the operation, and in the end, the sequence of operations is adjusted for the primary resource assigned to perform the operation by adding a descriptor of the performance characteristics of this operation and a descriptor of the performance characteristics of the previous readjustment operation; - S22: for primary resources, calculate the minimum possible time points for the placement of unfixed operations; - S23: for unplanned operations of re-planned orders and scheduled repairs, the lists of permissible primary resources are calculated by comparing the information about the primary resources and groups of resources required for the operations with the lists of acceptable types of operations for primary resources; - S24: for re-planned orders and scheduled repairs, rank values are calculated in such a way that, firstly, the ranking rules specified in the order and schedule repairs matrix found by linking the order and schedule repairs matrix and using each selected ranking rules break down the initial set of rescheduling orders and scheduled repairs if they use the first ranking rule, or, otherwise, break each subset of it obtained when using the previous ranking rule, on an ordered set of subsets defined by the selected ranking rule, and secondly, each rank in the resulting ordered sequence of subsets is assigned rank values so that in each subset the rank values of the rescheduled orders and planned repairs coincide, and, in addition so that the rank values increase in the order of the subsets, i.e. thereby grouping re-planned orders and scheduled repairs into equivalence classes, sorted in descending order of their relative importance and, what is the same, in increasing rank; - S25: carry out direct planning of non-fixed operations of rescheduled orders and scheduled repairs in such a way that the rank values are sequentially selected in the order of their increase and for each selected rank value, direct planning of unplanned operations related to rescheduling orders and scheduled repairs with the selected rank value is performed, so that successively select operations from the set obtained by combining the sets of unplanned operations of orders and scheduled repairs having the initial value of the rank, and the sequence in which the operations are selected depends on the order of operations in the EAPs containing them, and for each selected unplanned operation, one primary resource is first assigned to perform the operation from the associated operation of the list of admissible primary resources, for which, if in the indicated a list of more than one primary resource, sequentially select the ranking rules specified in the ordered list of ranking rules for primary resources, mapped to the required performing an operation to a resource group, and using each selected ranking rule, split the original set of valid primary resources if the first ranking rule is used, or, otherwise, break its first subset obtained using the previous ranking rule into an ordered set of subsets defined by the selected by a ranking rule, and after using the last ranking rule, one primary resource is selected from the first received subset, i.e. one primary resource is selected, taken from the first equivalence class containing the most preferred primary resources, and the selected primary resource is assigned to perform the operation, after which the time of the calculated receipt of the operation in the queue of the primary resource assigned to perform the operation is calculated based on the time required to start the operation and based on the duration of the transportation of parts, measured from the moments of the estimated start of overlapping of previous operations in Ori A graphical EPU column and determined by the functions of the transportation duration, and then calculate the remaining planned characteristics of this operation based on the standard durations of its stages and based on the fact that this operation should be performed on the primary resource no earlier than the time of the estimated receipt of the operation in the primary resource queue and not earlier than the minimum possible time for the placement of unfixed operations on the primary resource, and when calculating the planned characteristics of the operation, the completeness of the primary and secondary resources necessary for the operation using the resource availability functions, take into account the availability of components necessary for the operation using the component availability functions, take into account the speed of the stages of the planned operation, calculated by the performance functions of the primary resource assigned to perform the operation, and also take into account the possible the need to perform previous and subsequent readjustment operations, the duration of which is determined they are divided by the functions of the readjustment duration of the primary resource assigned for the operation, then this operation, as well as the previous and / or subsequent readjustment operations, if necessary, are marked as planned and corrected for the availability functions of the primary and secondary resources and the availability functions of components so that firstly, during the calculated time intervals of the operation and the previous and subsequent readjustment operations, the availability of the designated the primary resource operation was important to indicate that the primary resource is busy for the operation and the previous and subsequent readjustment operations, and secondly, during the calculated time interval for the operation, the availability of the secondary resources used by the operation was reduced by the number of units of secondary resources required for the operation thirdly, starting from the time of the calculated start of the operation, the availability of the components used by the operation was reduced by t the number of component units required for the operation, and fourthly, starting from the time of the calculated completion of the operation, the availability of the component parts produced by the operation was increased by the number of component units obtained as a result of the operation, and finally, the sequence for the primary resource assigned to the operation is adjusted perform operations by adding to it a descriptor of characteristics of the execution of this operation and descriptors of characteristics of the execution previous and subsequent readjustment operations, and the relative order of operations related to orders and scheduled repairs with the same rank value on each primary resource is calculated so that each operation is selected to perform from the operation queue of the primary resource, which is built separately for each rank value moreover, if at the time of selecting an operation from the queue there are several operations in the queue, then the ranking rules specified in the order are sequentially selected the given list of operation ranking rules associated with the primary resource, and using each selected ranking rule, split the initial set of operations that are in the queue of the primary resource, if the first ranking rule is used, or, otherwise, break its first subset obtained using the previous rule ranking, on an ordered set of subsets defined by the selected ranking rule, and, after using the last ranking rule, select one operation w obtained from the first subset, i.e. one operation taken from the first equivalence class containing the most preferred operations; - S26: calculate the planned characteristics of the rescheduling EPAs so that for each of the scheduled EPAs the time of the estimated start of the EPU execution is equal to the smallest time of the calculated start of execution among all its operations, and the time of the calculated completion of the EPU is equal to the largest time of the calculated completion of the EPU among all her operations; - S27: carry out the collection of external costs in such a way that the external costs are sequentially selected in decreasing order of importance and for each selected external consumption of components determine the availability of the required number of components using the accessibility function of this component, and if the consumption of the component is possible, first calculate the moment time of the calculated start of expenditure of the component so that it is not less than the time moment of the required start of the time specified for the external flow the movement of the component, and then perform the correction of the accessibility function of the component in such a way that, starting from the time of the calculated start of expenditure of the component, the availability of this component will be reduced by the number of units of components required for external consumption; - S28: for rescheduling EPAs, as well as for the parts and operations of these EPAs, the costs of execution are calculated, in particular, on the basis of the functions of the standard costs of primary resources, the planned characteristics of operations, the cost of components used in performing operations, as well as the direct costs of operations; - S29: delete orders and scheduled repairs to be deleted from the EPU directory, and also delete related parts and operations; - S30: calculate the production schedule quality indicators that describe the minimum, maximum, average and other required values for the characteristics of the resources, the planned and cost characteristics of the rescheduling EPUs, their parts and operations, as well as for the characteristics of the cargo flow, characteristics of stocks of components and characteristics of external costs; - S31: if at least one of the actions S2-S30 was unsuccessful, the production model is restored to the data saved during the execution of step S1; - S32: make changes to the production model, process dispatching events; - S33: perform an assessment of the relevance of the production schedule and proceed to step S32 if updating the production schedule is not required, or perform a transition to step S1 if updating is required. 3. The method according to claim 2, characterized in that actions S2-S11 are performed in any sequence, actions S12 and S13 are performed in any sequence, actions S14-S16 are performed in any sequence, actions S22-S24 are performed in any sequence, actions S26 -S29 is performed in any sequence, and if at least one of the actions S2-S30 was unsuccessful, proceed to step S31. 4. A system of devices for constructing and monitoring the execution of production schedules, characterized in that it contains interconnected via a system data bus connected to a data bus for communication with external devices and systems, and interacting at the level of data exchange and command exchange in the process functioning of the following devices: - Storage device resource directory U1; - A device for determining the availability of U2 resources, containing the functional blocks that are connected to each other via a Data Bus connected to the System Data Bus and interact at the level of data exchange and command exchange during operation: B2.1 calendar control unit, B2 calendar binding control unit. 2, B2.3 Resource Availability Functions Control Unit, B2.4 Resource Availability Functions Calculation Block, B2.5 Resource Accessibility Functions Correction Unit, Planned Performance Characteristics Calculation Unit B2.6 and B lock correction of resource availability functions with B2.7 operations; - A device for determining the productivity of primary resources U3, containing function blocks connecting to each other via the Data Bus connected to the System Data Bus and interacting at the level of data exchange and command exchange during operation: B3.1 performance matrix control unit, Matrix binding control unit B3.2 performance, B3.3 resource productivity function control unit, B3.4 resource productivity function calculation unit and production function extraction block B3.5; - A device for determining the duration of reconfigurations of primary resources U4, containing the function blocks that are connected to each other by means of a Data Bus connected to the System Data Bus and that interact at the level of data exchange and command exchange during operation: Control unit for changeover matrices B4.1, Link control unit of adjustment matrices B4.2, Control unit for functions of the duration of the readjustment of resources B4.3, Block for calculating the functions of the duration of the readjustment of resources B4.4, and the Block for extracting functions of length nosti changeover B4.5; - A device for determining standard costs for primary resources U5, containing the function blocks that are connected to each other via a Data Bus connected to the System Data Bus and interacting at the level of data exchange and command exchange during operation: Control Unit for Normative Cost Matrices B5.1, Block management of bindings of normative cost matrices B5.2, Control unit for functions of standard costs of resources B5.3, Block for calculating functions of standard costs of resources B5.4 and Block for extracting standard functions apparent costs B5.5; - A device for determining the duration of transportation U6, containing the function blocks that are connected to each other by means of a Data Bus connected to the System Data Bus and which interact at the level of data exchange and command exchange during operation: Control unit for transportation duration matrices B6.1, Matrix binding control unit duration of transportation B6.2, Control unit for functions of transportation duration B6.3, Block for calculating functions of transportation duration B6.4, Block for extracting fun transportation duration transportation units B6.5 and Transportation duration calculation unit B6.6; - A device for determining transportation distances U7, containing the function blocks that are connected to each other by means of a Data Bus connected to the System Data Bus and that interact at the level of data exchange and command exchange during operation: Control unit for transport distance matrices B7.1, Control unit for matrix bindings transportation distances B7.2, Control unit for the functions of the transportation distance B7.3, Block for calculating the functions of the transportation distance B7.4, Block for extracting the distance functions Nia B7.5 and transport unit transports cargo flow calculation B7.6; - A device for determining the availability of U8 components, containing functional blocks that are connected to each other by means of a Data Bus connected to the System Data Bus and that interact at the level of data exchange and command exchange during operation: Control unit for external arrivals B8.1, Control unit for external expenses B8 .2, Control unit for accessibility functions of components B8.3, Block for correction of accessibility functions of components B8.4, Unit for calculating the moments of time of expenditure of components B8.5, Initialization unit AI component accessibility features B8.6, unit configuration of the external costs B8.7, unit calculating the minimum start point of operations B8.8 and correction block access to components B8.9 operations functions; - Storage device directory EPU U9, containing connecting to each other via a data bus connected to the system data bus, and interacting at the level of data exchange and command exchange during the operation of the functional blocks: EPU B9.1 control unit, EPU B9 parts control unit. 2 and the Operations Control Unit EPU B9.3; - A device for determining the rank of orders and scheduled repairs of U10, containing the function blocks that are connected to each other by means of a Data Bus connected to the System Data Bus, and interacting at the level of data exchange and command exchange during operation: Blocking matrix control module B10.1, Control block bindings of ranking matrices B10.2, storage unit for ranking table B10.3 and block for calculating rank values for orders and scheduled repairs B10.4; - A device for selecting operations from the U11 queue, which contains functional blocks: the B11.1 ranking matrix control block, the matrix binding control block, connecting to each other via the Data Bus connected to the System data bus and interacting at the level of data exchange and command exchange during operation ranking B11.2, Control unit for mapped resources ordered lists of ranking rules for operations B11.3, Calculation block for resources of ordered lists of ranking rules for operations B11.4, Block storage ranking table B11.5 and Block extraction of the most priority operations B11.6; - A device for assigning primary resources for performing operations U12, comprising functional blocks that are connected to each other via a Data Bus connected to the System Data Bus and functionally interacting at the level of data exchange and command exchange during operation: Control unit for ranking matrices B12.1, Control unit bindings of ranking matrices B12.2, Control unit for mapped resource groups with ordered lists of primary resource ranking rules B12.3, Calculation block for emphasis resource groups core lists of ranking rules for primary resources B12.4, storage unit for ranking table B12.5 and assignment unit for the most priority resources B12.6; - A device for determining the permissible primary resources for performing operations U13, containing the function blocks that are connected to each other by means of a Data Bus connected to the System Data Bus, and interacting at the level of data exchange and command exchange during operation: The control unit for the bindings of valid types of operations B13.1 , Block management of lists of permissible types of operations for resources B13.2, Block for calculating lists of permissible types of operations for resources B13.3, and Block for calculating lists of permissible resources for I B13.4 operations; - A device for constructing sequences of operations U14, containing functional blocks connecting to each other via a Data Bus connected to the System Data Bus and interacting at the level of data exchange and command exchange during operation: Block for storing sequences of operations B14.1, Descriptor calculation block processing sequences B14.2, Block for calculating sequences of processing queues for fixed operations B14.3, Block for calculating sequences of images quipment queues for floating operations B14.4, calculation unit operations and unit sequences B14.5 B14.6 fixed lists calculation operations; - A control device for calculating the production schedule U15, which contains the function blocks that are connected to each other via the Data Bus and connected to the System Data Bus and interacting at the level of data exchange and command exchange during operation: The planning block that completed execution and also started and failed to complete execution operations B15.1, storage unit of ranking table B15.2, block for planning fixed operations B15.3, block for planning non-fixed operations B15.4 and control unit production schedule account B15.5; - Dispatch device U16. 5. The system according to claim 4, characterized in that it is connected via a data bus for communication with external devices and systems and interacts at the level of data exchange and command exchange during operation with external devices and systems, namely, data input and output devices, such as: keyboard, monitor, printer, etc., and / or with Industrial controllers and SCADA systems and / or with ERP systems and / or with MES systems and / or with Systems of technological and design training and / or with other external devices and system and is a supplier and / or customer data, produced and used by this system to build devices and monitoring of the production scheduling. 6. The system according to claim 5, characterized in that editing in manual mode, visualization for interacting with a person, as well as other interactive operations with data stored in its devices and their blocks, are performed by transmitting the necessary commands and data via buses data, in particular, on the System data bus and on the Data Bus for communication with external devices and systems, to Data input and output devices and vice versa. 7. The system according to claim 5, characterized in that editing in automatic mode, extraction, synchronization with external data storage systems, as well as other operations that do not require direct human intervention, with data stored in its devices and their blocks, are performed by transferring the necessary for this, commands and data on data buses, in particular on the System data bus and on the Data Bus for communication with external devices and systems, to external devices and systems and vice versa, as well as by transferring the necessary commands and data on the data buses, in particular on the system data bus between devices and systems within the device blocks for building and monitoring of the production scheduling. 8. The system according to claim 4, characterized in that it is implemented by executing on a computer a program recorded on a computer-readable medium and containing computer-executable instructions for implementing the method.