WO2020016123A1 - Laboratory management system - Google Patents

Abstract

The present invention relates to processes being carried out in a laboratory. The invention comprises a method, a system and a computer program for carrying out processes.

Description

 Lab Management System

 The present invention is concerned with performing processes in a laboratory. The present invention comprises a method, a system and a computer program for carrying out processes in a laboratory.

 A laboratory is a place to research or use scientific processes. The term laboratory includes closed rooms (e.g. laboratory rooms, greenhouses) as well as open areas (e.g. in field experiments).

 Processes that are carried out in a laboratory include experiments, process controls, quality controls, tests and measurements (especially calibrations) as well as the production and / or processing of chemical and / or biological substances.

 The implementation of a process in a laboratory comprises the steps of planning, execution and evaluation. To support the process steps, computer programs are now commercially available under the designations L1MS (laboratory information management system) L1S (laboratory information system) or LMS (laboratory management system). Such computer programs, hereinafter referred to as laboratory management systems, are described for example in EP2715626A1, US2003028501A and US2005273272A.

 The connection of laboratory devices to a laboratory management system (see e.g. US2013145046A) or the use of RFID labels for tracking laboratory samples (see e.g. WO08024471A2) are also described in the prior art.

In many laboratories, the areas for planning and / or evaluating processes are spatially separated from the areas for executing the processes. One reason for this is that the execution area often deals with substances that can have a harmful impact on people and / or the environment, and the length of time in the execution area is reduced by the fact that work that does not require handling of harmful substances be moved to other areas (planning and / or evaluation area).

It is therefore common to plan a process on a workstation in the planning and / or evaluation area, to generate a process plan, to switch to the execution area with the process plan, in order to execute the process there, to record the results of the process (e.g. observations) and then switch back to the planning and / or evaluation area with the recorded process results in order to evaluate the process results.

This often leads to media breaks: the process plan is created on the workstation and then printed out on paper, process results are written down manually and then entered into the workstation and the like. Such media breaks are inefficient and involve the risk of incorrect entries.

 Another disadvantage of existing laboratory management systems is that they support a process on a generic level without taking into account the specific circumstances of a laboratory. When supporting a process implementation, a laboratory management system usually does not take into account which devices and / or substances are present in the laboratory and which technical specifications the devices have.

The disadvantages described are eliminated by the present invention. A first object of the present invention is a method comprising the following steps

 Providing at least one computer system, a device and a batch of a substance

 - Displaying an overview of a process on a screen of the at least one

computer Systems

 Selection of the displayed overview by a user

 Selection of a basic operation by the user

 Linking the basic operation to the device by the user, the link establishing a connection between the computer system and the device

 Linking a digital representation of the substance with the batch of the substance by the user

 Transferring process parameters from the at least one computer system to the device and / or transferring process data from the device to the at least one computer system

 Perform the basic operation on at least a portion of the batch of the substance using the device

 Recording of process data and / or events by the at least one computer system

 Generating a result data record based on the recorded process data and / or the recorded events by the at least one computer system

 Save the result record.

 Another object of the present invention is a system comprising

 - at least one computer system and

 a device for performing a basic operation

the at least one computer system and the device being connectable to one another directly or via a network

wherein the at least one computer system is configured

 - To accept input from a user, the input defining a

Process, whereby the process definition includes:

 Selection and / or input of a digital representation of a substance Selection and / or input of a process plan

 Selecting and / or entering and / or calculating process parameters - to generate a process parameter set, the process parameter set being the digital one

 Representation of the substance, the process plan and the process parameters comprises displaying an overview of the process on a screen of the at least one computer system

 accept further input from a user, the input comprising:

 - Select the overview displayed

 Select a basic operation

 Link the basic operation with the device for performing the

Basic operation, the connection being used to establish a connection between the at least one computer system and the device Link the digital representation of the substance to a batch of the substance

 Transfer process parameters to the device and / or process data from the

Receive device

 Record process data and / or events

 generate a result data record based on the recorded process data and / or the recorded events

 save the result record.

 Another object of the present invention is a computer program product comprising a program code which is stored on a data carrier and which causes a computer to carry out the following steps when the program code is loaded into the main memory of the computer:

 Receiving or determining a process parameter set for a process, the process parameter set comprising a digital representation of a substance, a process plan and process parameters

 Display an overview of the process on a screen

 Receiving input from a user, the input comprising:

 Select the overview displayed

 Select a basic operation

 Linking the basic operation to a device, whereby the link creates a connection between the computer system and the device Linking the digital representation of the substance to a batch of the substance, transferring process parameters to the device and / or receiving process data from the device

 Recording process data and / or events

 Generation of a result data record based on the recorded process data and / or the recorded events

 Transfer of the result data set to a computer system and / or a data store.

The invention is explained in more detail below without distinguishing between the subject matter of the invention. Rather, the following explanations are intended to apply analogously to all subjects of the invention, regardless of the context in which they are carried out.

 If steps are listed in an order in the present description or in the patent claims, this does not necessarily mean that the invention is limited to the named order. Rather, it is conceivable that the steps can also be carried out in a different order or in parallel to one another; unless a step builds on another step, which makes it imperative that the building step be carried out subsequently (which is clear in individual cases). The sequences mentioned thus represent preferred embodiments of the invention.

 The present invention relates to the implementation of processes. A "process" is a directed sequence of events. A process can be planned and carried out according to the planning.

A process in the sense of the present invention is carried out in a laboratory. A laboratory is a place to research or use scientific processes. The term laboratory includes closed spaces (e.g. laboratory rooms, greenhouses) as well as open spaces (e.g. in field experiments). A laboratory is preferably an enclosed space in a building.

 In a first step of the method according to the invention, the process that is to be carried out is determined on a computer system. The computer system for determining the process is preferably a stationary computer system. It is also conceivable that it is a mobile computer system or a computer system with mobile components.

 In contrast to a mobile computer system, a stationary computer system is a stationary computer system such as a desktop computer or a tower computer. The term "stationary" should not be understood to mean that the computer system cannot be transported, but that a transportability, as is the case with mobile computer systems, is not necessary and not common. Typically, stationary computer systems are equipped with monitors that have a screen size of at least 17 inches (to ensure comfortable work); Frequent transportation of such systems from one location to another (for example from the planning and / or evaluation area to the execution area) is impractical. In a stationary computer system, more value is placed on convenient and convenient usability than on portability.

 In the present description, the stationary computer system is also referred to as a workstation computer.

 A mobile computer system is a computer system that a person can easily carry from one location to another location (for example from the planning and / or evaluation area to the execution area and / or vice versa). Examples of mobile computer systems are tablet computers, handheld computers, smart watches, smartphones, smart glasses (data glasses).

 A computer system with mobile components is a computer system in which components are designed such that a person can take them from one place to a place, while other components are not intended to be carried but rather remain in one place. An example of a computer system with mobile components is a tablet computer which is connected to a larger monitor and / or to a mouse and / or to a keyboard and / or to a printer and / or the like (hereinafter also referred to as peripherals) can (e.g. via a docking station), the periphery usually remaining in one place to enable convenient working at the location, while the tablet computer can be carried by the person from one location to another location and at any location is operational without the periphery.

In a preferred embodiment, at least two computer systems are used to implement the invention; a stationary computer system that is used in the planning and / or evaluation area and a mobile computer system that is used in the execution area.

The following does not explicitly distinguish between the various possibilities of using one or more computer systems at every point. If the following refers to a computer system, it is conceivable that the system according to the invention can also comprise several computer systems. Depending on the particular step that is carried out, this can be a stationary or a mobile computer system; it can be the same computer system or different computer systems at different steps be used. All steps that are carried out in the execution area are preferably carried out with a mobile computer system, while all steps that are carried out in the planning and / or evaluation area are preferably carried out with a stationary or a mobile computer system, which is the mobile computer system can act the same computer system used in the execution area.

 Entries and / or selections on a computer system are usually made by means of input means belonging to the computer system or to the periphery, such as a keyboard, a mouse, a touchscreen, a microphone, a scanner and the like.

 Outputs (for example warning notices, information, process (between) results and / or evaluation results) usually take place in a computer system by means of output means belonging to the computer system or the periphery, such as a screen (monitor), a loudspeaker, a printer or the like.

 Activities that are carried out in the execution area are those activities in which the at least one substance and / or a device is / are used to carry out a basic operation. Activities that are carried out in the planning and / or evaluation area are those activities in which neither a substance nor a device is used to carry out a basic operation.

 A process in the sense of the present invention requires the definition of at least one substance.

 The at least one substance is the object that is being processed.

 A substance in the sense of the present invention is a chemical or biological substance or a mixture of substances. The substance can also be a material sample or the like.

 The substance is usually in a container. The amount of the substance in the container is also referred to here as the batch of the substance. If the substance is not in a container, the real embodiment of the substance is also called a batch.

 To determine a substance, a digital representation of the substance is entered into the computer system and / or selected on the computer system.

 A digital representation of a substance is, for example, the name of the substance, the (chemical) structural formula of the substance, a unique identifier (for example an identification number) of the substance or the like. A substance is at least generically specified on the basis of the digital representation.

Furthermore, a process plan is entered into the computer system and / or selected on the computer system. The process plan describes what should happen to the at least one substance. The defined process plan is usually in the form of a description in text form or is created as text. However, it can also be available in the form of a graphic or be enriched by graphic elements. If the process is a chemical reaction (conversion) of a substance with another substance, it is recommended to use conventional reaction equations to define the process and / or to enrich the description of the process plan. Process parameters are also entered into the computer system and / or selected or calculated on the computer system. Typical process parameters are, for example, the amount of the at least one substance, its purity, a temperature, a pressure, a speed, a time period and the like.

 A process usually consists of a number of steps. The definition of basic steps has become established in many areas. Basic steps, also called basic operations in the following, are often recurring operations that lead to a process (intermediate) result, are comparatively easy to describe and are characterized by a manageable number (usually less than 10) of parameters.

 Examples of basic operations within the meaning of the present invention are: weighing, measuring, dissolving, mixing, stirring, heating, cooling, distilling off, evaporating, reacting (reacting), filtering, sieving, crushing, washing, extracting, drying, adding and the like ,

 Stirring can be characterized, for example, by the stirrer to be used, a stirring speed and a stirring time. Homogenization of a mixture is achieved, for example, by stirring; the process (intermediate) result is a homogenized mixture.

 It is conceivable that basic operations are linked to one another, such as linking the basic operations "heating" and "stirring" to the operations "heating while stirring" and "heating while stirring".

 It is conceivable that the process plan is available in the form of a sequence of descriptions of basic operations with the associated process parameters and substances.

 It is also conceivable that the process plan includes a description of actions that are to be carried out with the at least one substance and that is primarily aimed at a person who is to carry out the corresponding actions in the laboratory (action description).

The main difference between an action description and a sequence of basic operations is that the basic operations represent separate, well-defined blocks that can be edited and / or edited independently of one another, while the action description describes the process in free form.

 A process plan can also be a mixture of an action description and a sequence of basic operations.

 It is also conceivable that the computer system is configured to transform the process plan into a sequence of basic operations based on an action description. The computer system can be configured to search the action description for keywords and to generate a sequence of basic operations based on the identified keywords. Such an automatically generated process can be displayed to a user who can change and / or add to the process.

The computer system is configured to generate a process parameter set from the information about the defined process. The process parameter set comprises information about the at least one substance that is to be processed, about the process plan, ie the actions that are to be carried out on and / or with the at least one substance, and the process parameters. The process parameter set is a digital data set that can be transmitted, for example, from a stationary computer system to a mobile computer system. The Transmission preferably takes place via a network via which the two computer systems can be connected to one another. It is preferably a wireless network, preferably a radio network. However, a wired connection between the computer systems is also conceivable, via which the process parameter set (and the process results) can be transmitted from one computer system to the other computer system.

 The substance, the process plan and the process parameters can be present in the process parameter set in the same digital representation in which they are also present on the stationary computer system and / or on the mobile computer system. The data is usually available in compressed form in the process parameter set.

 A preferred procedure includes that a person plans a process on a stationary workstation computer, and the planning data is then transferred (preferably automatically, possibly by pressing a virtual button) to a mobile computer system. The mobile computer system is designed so that the person can (comfortably) take it to an execution area of the laboratory.

 The computer system is configured to generate an overview of the defined process and to display this overview on a screen. An overview of a process is a representation of the process, based on which a user can see what kind of process it is. An overview can be a name in text form and / or a reaction equation in graphical form and / or the like or comprise the elements mentioned.

 Usually, several overviews of processes are displayed on the screen, from which a person can select a process to be executed, for example by clicking or using a voice command. By selecting a process from such a list, the person signals that he wants to execute this process. The selection preferably shows the person further information on the selected process on the screen, for example a digital representation of the at least one substance, the actions to be carried out or the basic operations to be carried out and the process parameters.

 If a description of the action is displayed as the process description, the person can select a basic operation from a virtual menu bar that is part of the description of the action and that is to be carried out as the next step.

 It is conceivable that the user is shown one or more digital representations of one or more substances, which he can assign to one or more selected basic operations by "drag and drop".

 If a sequence of basic operations is displayed as the process description, the person can select a basic operation in order to carry it out.

 It is also conceivable that the process only provides for the execution of a single basic operation, which is displayed by selecting the process overview.

In order to carry out a basic operation, a device with which the basic operation is carried out is usually required in addition to the at least one substance which is to be subjected to the basic operation. Examples of devices for performing a basic operation are: scales, stirrers, heating devices, cooling devices, distillation systems, shakers, dosing devices, filtering devices, timepieces and the like.

In a next step of the method according to the invention, a person links the digital representation of the at least one substance with a real batch of the substance and the basic operation to be carried out with a (real) device. Through these links, the computer system is informed with which batch of substance and with which device the process or a basic operation of the process is carried out.

 For linking, the batch of the substance and the device each have a unique identifier. The batch of the substance and the device can be clearly identified on the basis of their unique identifiers.

 The unique identifier can be connected in machine-readable form to the substance or a container in which the substance is located, or to the device. The unique identifier can be attached, for example, as an optically readable code (e.g. as a bar code or as a matrix code (e.g. QR code or data matrix code)) in the form of a label. It is also conceivable for an optically readable code to be printed, engraved, lasered, etched or otherwise inserted or attached. It is also conceivable to use RFID labels or comparable semiconductor memories which can be read by radio and in which the unique identifier is stored. In the case of a device, it is also conceivable that the device is registered in the same network as the computer system or a direct connection between the device and the computer system exists or can be established. In such a case, it is conceivable for a person to be shown, via the computer system, a list of devices which are connected directly or indirectly (via a network) to the computer system. From the list, the person can select a device for performing a basic operation. It is conceivable that the MAC address (media access control address) of the device functions as a unique identifier of the device. It is also conceivable that the service set identifier (SS1D) of the device connected via WLAN functions as a unique identifier of the device. It is also conceivable that the PAN-1D of the device connected via a ZigBee network functions as a unique identifier of the device. It is also conceivable that the Bluetooth name of the device connected via Bluetooth functions as a unique identifier of the device.

 The linking of the digital representation of the substance with the batch of the substance and the linking of the basic operation with the device serve to link between the virtual (digital), i.e. world represented in the computer system with the real (physically real) world.

 The link is usually established by first selecting the digital representation (of the substance or the basic operation) and in a subsequent step the unique identifier of the corresponding real object being recorded using a suitable reading device (barcode scanner, camera, RFID reader or the like) , The reverse order of the steps is also conceivable. The detected unique identifier is assigned to the corresponding digital representation in the computer system and this assignment is saved.

A database is preferably present, in which information about the object is stored for the respective unique identification of the real object (batch of substance, device). Information that can be stored about a substance / a batch of a substance is, for example, batch name, date of manufacture, manufacturer, storage conditions, hazard warnings, quantity present, purity, contamination, shelf life, delivery time and / or the like.

 Information that can be stored via a device is, for example, manufacturer, technical specifications, location, hazard warnings, maintenance times and / or the like.

Linking the digital representation of the substance with the batch of the substance can have the aim of capturing the batch of a substance with which a basic operation was carried out. In a preferred embodiment, a batch name is therefore determined on the basis of the unique identifier and linked to the digital representation of the at least one substance. In this way, a process result can be assigned to a defined batch. This can be advantageous if, for example, an unexpected result arises that raises questions for the clarification of which knowledge about the batch actually used is useful, for example because it turns out that the batch is contaminated.

In a further preferred embodiment, the unique identifier of the substance is recorded, information on the substance is determined from a database on the basis of the unique identifier (eg substance name and / or structural formula), and it is determined whether the batch of the substance is from a chemical or biological point of view, the same substance acts as the digitally represented substance. It is conceivable that a person accidentally grabs the wrong substance. By recording the unique identifier and comparing data, it is therefore possible to recognize a wrongly selected substance and to alert the person to their mistake by means of a warning.

In a further preferred embodiment, the quantity of the real substance still available from the real substance is determined on the basis of the unique identifier of the real substance and compared with the quantity to be used in the basic operation according to the process plan. In the event that the amount of real substance still available is less than the amount to be used in the basic operation, a warning notice will be issued. It is also conceivable that the process plan is automatically adapted to the quantity still available. It is also conceivable that the quantity stored in the database is updated by subtracting the quantity to be used according to the process plan from the quantity currently stored in the database. It is also conceivable that such an update is only carried out after the real substance has been weighed out. In a further preferred embodiment, safety information is determined on the basis of the unique identification of the real substance from a database and compared with information in the process plan and / or with the process parameters in order to determine whether the intended actions and the process parameters are compatible with the substance. For example, it is conceivable that the substance decomposes above a temperature limit. If the substance is to be heated to a temperature above the temperature limit in accordance with the process plan and process conditions, the substance and the process plan / process parameters would not be compatible with one another. In such a case, a warning notice can be issued.

An analogous procedure can take place if an action according to the process plan provides for the contacting of two substances which, according to the safety information, should not be brought into contact under the planned conditions; for example because an uncontrollable reaction threatens. In a preferred embodiment, technical specifications of the device are determined from a database on the basis of the unique identifier of the device, in order to compare this with information in the process plan and / or with the process parameters, and to determine whether the device is suitable for the planned actions ,

 Examples of technical specifications are: maximum temperature, minimum temperature, volume, maximum pressure, accuracy, maximum weight, maximum speed and the like.

 For example, it is conceivable that, according to the process plan and the process parameters, two substances should be stirred together at a stirring speed of at least 1500 revolutions per minute in order to achieve a homogeneous mixture. It is conceivable that the selected device achieves a maximum stirring speed of 1200 revolutions per minute. Based on the unique identifier, the maximum stirring speed of the stirrer is determined in a database and compared with the corresponding process parameter. If the maximum stirring speed is lower than the required stirring speed, a warning notice can be issued.

In another example, according to the process plan, an amount of 1 mg of a substance should be weighed out. A person selects a scale as a device with which the corresponding amount is to be weighed. On the basis of the unique identifier of the device, the accuracy of the balance is determined in a database. If the accuracy of the scale is below the required accuracy, a warning notice can be issued. For example, the scale can have an accuracy of 5 mg; such a scale is not suitable for weighing an amount of 1 mg; a warning notice can be issued.

In a preferred embodiment, the device for performing a basic operation is connected or connectable to the computer system via a network or directly. Through such a connection, data can be transmitted from the computer system to the device and / or data can be transmitted from the device to the computer system. In a preferred embodiment, a connection between the device and the device also takes place together with the linkage of a basic operation with a device computer system. In a further step of the method according to the invention, process parameters are transmitted from the computer system to the device and / or process data are transmitted from the device to the computer system.

 Transferring data between the device and the computer system has the advantage that the data does not have to be entered manually. In addition to an increase in efficiency, this also prevents incorrect entries.

 It is conceivable, for example, that the process plan provides for heating the at least one substance to a target temperature T. In such a case, the process parameter T can be transferred from the computer system to the device via the connection between the computer system and the device (for example a heater) be transmitted. The device (the heater) receives the set temperature T and sets it.

 It is also conceivable that the amount of a substance should be weighed according to the process plan. In such a case, the result of the weighing can be transmitted from the device to the computer system via the connection between the computer system and the device.

In a preferred embodiment, process parameters are updated on the basis of transmitted process data. This is explained using an example: According to the process plan When carrying out a basic operation, compliance with a process parameter is provided (for example, a quantity of the at least one substance of 1 g is weighed out). A person links the basic operation to a real device (e.g. a scale). The link creates a connection between the device and the computer system. The basic operation is carried out by means of the device (for example filling the at least one substance into a weighing pan until the scale shows 1 g). During the execution of the basic operation, the device transfers process data to the computer system. The computer system is configured in such a way that it compares the transferred process data with the process parameters. It is conceivable that the transferred process data deviate from the process parameters (an excessive amount of the substance has been added to the weighing pan so that it now shows a quantity of, for example, 1.04 g). In the event of a deviation, a warning notice can be issued. It is conceivable that the person operating the device and the computer system is given the choice to change the process (take quantity from the weighing pan so that the scale shows 1 g) or to change the process parameter and change it to reality to adapt (continue with a weight of 1.04 g instead of 1 g). Such an adjustment is also called an update in this description. It is conceivable that not only the one process parameter that is not in accordance with the process data is updated, but also process parameters that are related to the one process parameter. For example, if the process plan provides a reaction between two substances A and B, each of which is to be weighed in at 1 g, and substance A has been weighed in at 1.04 g, it is conceivable that the required weights of the Substances A and B are set to 1, 04 g as a result of an update.

 Another step of the method according to the invention is to carry out a basic operation with at least part of the batch of the substance with the aid of the device. The execution can be done by the user. However, it is also conceivable that the execution is automated (i.e. without manual intervention by the user). It is also conceivable that one or more actions are carried out by the user and one or more actions take place automatically.

In a preferred embodiment, execution of the basic operation is tracked (monitored) by the computer system using the device.

For example, it is conceivable that the basic operation involves adding a quantity M of a substance A from a vessel G _A TO a substance B in a vessel G _B with the aid of a dosing unit. The dosing is started; the computer system tracks the dosage, for example, followed by the temporal change in the amount of remaining in the vessel G _A substance A and / or the amount of landed in the vessel G _B B substance.

 After completion of a basic operation, the process (intermediate) results are recorded by the computer system for documentation purposes and / or for further processing and / or for evaluation. A process result is a result of the whole process. Such a result can also be called the process end result. An intermediate process result is the result of executing a basic operation. The term process (intermediate) result means that a result can be a process result or an interim process result.

According to the invention, the acquisition of process (intermediate) results comprises two steps: the recording of process data and / or events and the generation of a result data record on the basis of the recorded information. The term recording is understood to mean capturing, possibly processing and storing. The detection can take place during the execution of a basic operation and / or afterwards. Recording can be continuous or sequential.

 The term event is understood to mean the occurrence of an observable event. An event can be the beginning or the end of a chemical reaction, it can be a change in a process parameter (temperature, pressure, etc.), it can be a change in a physical property (physical state, color, etc.). Further events are conceivable. In a preferred embodiment, each event receives a time stamp; the timestamp indicates the point in time (or the time span) at which the event occurred.

 Process (intermediate) results and / or events can be recorded, for example, by recording a digital video sequence with a camera, wherein the camera can be part of the computer system or can be connected to it. Digital image recordings (digital photos) are also possible. It is also conceivable that a user records observations by entering them into the computer system via an input means, e.g. via a microphone via voice message or a (virtual or real) keyboard via text message. The process (intermediate) results are assigned to the respective basic operations and the higher-level process and are stored on the computer system and / or in a data memory which is connected to the computer system via a network. They can be called up later to edit them and / or to use them as a basis for planning further processes.

 A user preferably inputs events via a microphone into the at least one computer system. Speech recognition software is preferably installed, which converts the spoken words into written text.

 The invention is explained in more detail below with reference to figures and examples, without wishing to restrict the invention to the features and combinations of features mentioned in the figures and examples.

 Show it:

 Fig.l shows schematically an embodiment of the system according to the invention. The system comprises a first computer system (10), a second computer system (20) and a device (30) for performing a basic operation. The first and second computer systems are interconnected (represented by the dashed line). Via this connection, data can be transmitted from the first computer system (10) to the second computer system (20) and / or from the second computer system (20) to the first computer system (10). The second computer system (20) and the device (30) are also connected to one another (represented by the dashed line). Via this connection, data can be transmitted from the second computer system (20) to the device (30) and / or from the device (30) to the second computer system (20).

2 schematically shows a further embodiment of the system according to the invention. The system comprises a first computer system (10), which is designed as a stationary computer system, a second computer system (20), which is designed as a mobile computer system, a first device (30a) for performing a basic operation, the first device ( 30a) is an agitator, and a second device (30b) for performing a basic operation, the second device (30b) being a balance. The first computer system (10) is located in a planning and / or evaluation area (P); the Devices (30a, 30b) and the second computer system (20) are located in an execution area (A).

 3 shows an example of a further embodiment of the system according to the invention. The system comprises a first computer system (10), which is designed as a stationary computer system, a second computer system (20), which is designed as a mobile computer system, a first device (30a) for performing a basic operation, which is an agitator, a second device (30b) for performing a basic operation, which is a balance, a data memory (60) and a server (50). The system forms a network; the first computer system (10), the second computer system (20), the stirrer (30a), the balance (30b) and the data memory (60) are connected to the server (50). The first computer system (10) can for example be connected to the server (50) via a LAN, the second computer system (20) can for example be connected to the server via a WLAN. The database (60) can for example be connected to the server (50) via a direct connection (e.g. USB). The mixing device (30a) and the balance (30b) can be connected to the server (50), for example, via a connector, as is sold by the company cubuslab (https://www.cubuslab.com).

Fig. 4 shows an example of how a container (40) for a substance and a scale (30) can each be provided with a unique identifier. An RFID tag (41) is attached to the container (40) and a unique identifier can be stored in its memory. The unique identifier can be read out with an appropriate RFID reader. An optical code (31) is attached to the scale (30) (in the present example a QR code). The optical code comprises a unique identifier that can be read out with a corresponding reading device for optical codes (for example a camera).

 5 shows an example of a display on a screen of a computer system (20). Four overviews (70a, 70b, 70c, 70d) of four processes are displayed. Each of the overviews (70a, 70b, 70c, 70d) includes a process name (71a, 71b, 71c, 71d) and a reaction equation (72a, 72b, 72c, 72d). A user can select one of the overviews, for example by touching the respective overview on a touchscreen.

 6 shows an example of a process plan (80). The process plan (80) comprises a process name (81), a reaction equation (82) and an action description (83).

 7 shows an example of a further process plan (80). The process plan (80) comprises a process name (81), a reaction equation (82) and a sequence (84) of basic operations. It is conceivable that the sequence of basic operations was generated automatically from the action description (83) from FIG. 6 or a similar action description.

8 shows an example of a further display on a screen of a computer system (20). In the upper area an overview (70) of a process is shown in the form of a reaction equation. Digital representations (85a, 85b, 85c, 85d) of the substances used in the process are shown on the left. In the present case, the digital representations are chemical structural formulas (85a, 85b) and chemical formulas (85c, 85d). Names (1PAC names, trivial names) of the substances and / or other representations would also be conceivable. To the right of the digital representations (85a, 85b, 85c, 85d) there are virtual buttons that can be selected via the touch-sensitive screen. By selecting a button (eg 86b), the process of linking a digital representation of a substance with a batch of the substance is initiated. In the present example, instructions (87) appear on the screen after the button (86b) has been selected, which the user must execute : the The user is asked to place a camera, which is part of the computer system (20), in front of the optical code (41). The optical code (41) is applied to a label of the substance container (40). The computer system (20) is configured to recognize and read out the optical code (41) which is imaged on the camera sensor. The optical code (41) comprises a unique identifier. When reading the optical code (41), the unique identifier of the substance that is in the container (40) is detected. It is also conceivable that a separate reading device for optical codes is used, which is connected to the mobile computer system (20), for example via Bluetooth. The information that the batch of the substance with the corresponding unique identifier is used in the process is stored in a memory of the computer system (20). Using the unique identifier, information about the substance / batch can be determined from a database (60) to which the computer system (20) is connected via a network or directly (represented by the dashed line). The computer system (20) can use the information to check whether the substance in the container (40) is really the substance that is to be used in the process and its digital representation (85b) on the screen of the computer system (20 ) is displayed (the "desired substance"). If the computer system (20) detects that it is not the desired substance, the computer system (20) can display a message on the screen.

 9 shows an example of a further display on a screen of a computer system (20). A list (90) of basic operations managed by the computer system (20) is displayed. A user can select the corresponding entry by touching an entry in the list. With this selection, the user signals to the computer system (20) that the user wants to carry out the corresponding basic operation as the next step.

10 shows an example of a further display on a screen of a computer system (20). After a user has selected a basic operation from a list of basic operations in FIG. 9, he can check, supplement and / or correct the parameters for executing the basic operation. In the present example, the user is shown that the substances ethanol and sulfuric acid should be heated together to a temperature of 115 ° C. The user can add further substances to this basic operation by means of "drag and drop". He can change the entry of the temperature in the temperature field. He can enter a period (t) of how long the substances should be kept at the temperature of 115 ° C.

11 shows an example of a further display on a screen of a computer system (20). After a user has selected a basic operation from a list of basic operations in FIG. 9, he can link the basic operation to a device for performing a basic operation. It is conceivable for the user to be shown a list of devices with which the basic operation can be carried out and which are connected directly or indirectly (via a network) to the computer system (20). In the present case, the user can tap a virtual button (86b) to initiate a link to a device. Thereupon a message (87) appears with instructions to the user: he is asked to hold the camera of the computer system (20) in front of the optical code (31) of the device (30) to be linked, or one with the computer system (eg via Bluetooth) connected reader to use for optical codes. The computer system (20) or the optical reading device is configured to recognize and read out the optical code imaged on the respective (camera) sensor. The optical code (31) comprises a unique identifier, on the basis of which the device can be identified. Under the unique identifier, information about the device can be stored in a database (60) to which the computer system (20) is connected directly or indirectly (via a network). The clear one The identifier of the device is stored in a memory of the computer system (20) together with the information that the basic operation of the process is carried out with the device (30). It is conceivable that the link establishes a connection between the device (30) and the computer system (20), via which data and / or control signals can be transmitted.

 12 shows schematically in the form of a flow chart an embodiment of the method according to the invention.

 The method (100) comprises the following steps

 (101) providing at least one computer system, device and batch of a substance

 (102) Displaying an overview of a process on a screen of the at least one computer system

 (103) Selection of the displayed overview by a user

 (104) Selection of a basic operation by the user

 (105) Linking the basic operation to the device by the user, the link establishing a connection between the computer system and the device

 (106) Linking a digital representation of the substance to the batch of the substance by the user

 (107) transferring process parameters from the at least one computer system to the device and / or transferring process data from the device to the at least one computer system

 (108) Perform the basic operation on at least a portion of the batch of the substance using the device

 (109) Recording process data and / or events by the at least one computer system

 (110) Generation of a result data record based on the recorded process data and / or events by the at least one computer system

 (111) Save the result data set.

13 shows schematically in the form of a flow chart a further embodiment of the method according to the invention.

 The method (200) comprises the following steps

 (201) providing at least one computer system, device and batch of a substance

 (202) determining a process on the at least one computer system, the determining comprising the following steps:

 Selection and / or input of a digital representation of the substance Selection and / or input of a process plan

 Select and / or enter and / or calculate process parameters

(203) Generation of a process parameter set comprising the digital representation of the substance, the process plan and the process parameters

(204) Displaying an overview of the process on a screen of the at least one computer system (205) Selection of the displayed overview by a user

 (206) Selection of a basic operation by the user

 (207) linking the basic operation to a device for performing the basic operation by the user, the linking establishing a connection between the computer system and the device

 (208) Linking the digital representation of the substance to the batch of the substance by the user

 (209) transfer of process parameters from the at least one computer system to the device and / or transfer of process data from the device to the at least one computer system

 (210) Perform the basic operation on at least a portion of the batch of the substance using the device

 (211) Recording process data and / or events by the at least one computer system

 (212) Generation of a result data record based on the recorded process data and / or events by the at least one computer system

 (213) Save the result data set.

14 shows schematically in the form of a flow chart a further embodiment of the method according to the invention.

 The method (300) comprises the following steps

 (301) determining a process on a stationary computer system, the determining comprising the following steps:

 Select and / or enter a digital representation of at least one

substance

 Select and / or enter a process plan

 Select and / or enter and / or calculate process parameters

(302) Generating a process parameter set comprising the digital representation of the

 at least one substance, the process plan and the process parameters

 (303) transfer of the process parameter set to a mobile computer system

 (304) Displaying an overview of the process on a screen of the mobile

 computer system

 (305) Selection of the displayed overview by a user

 (306) Selection of a basic operation by a user

 (307) linking the basic operation to a device by the user, the linking establishing a connection between the computer system and the device

 (308) Linking the digital representation of the at least one substance with a batch of the at least one substance by the user

 (309) transferring process parameters from the mobile computer system to the device and / or transferring process data from the device to the mobile

 computer system

 (310) performing the basic operation with at least a portion of the batch of the substance by the device

(311) Recording process data and / or events by the mobile computer system (312) Generation of a result data record based on the recorded process data and / or events by the mobile computer system

 (313) transmitting the result data set from the mobile computer system to the stationary computer system via a network

 (314) Save the result data set.

Claims

claims

 1. Procedure comprising the following steps

 Providing at least one computer system, a device and a batch of a substance

 - Displaying an overview of a process on a screen of the at least one

computer Systems

 Selection of the displayed overview by a user

 Selection of a basic operation by the user

 Linking the basic operation to the device by the user, the link establishing a connection between the computer system and the device

 Linking a digital representation of the substance with the batch of the substance by the user

 Transferring process parameters from the at least one computer system to the device and / or transferring process data from the device to the at least one computer system

 Perform the basic operation on at least a portion of the batch of the substance using the device

 Recording of process data and / or events by the at least one computer system

 Generating a result data record based on the recorded process data and / or the recorded events by the at least one computer system

 Save the result record.

2. The method of claim 1, further comprising the following steps

 Determining a process on the at least one computer system, the setting comprising the following steps:

 Select and / or enter the digital representation of the substance

 Select and / or enter a process plan

 Select and / or enter and / or calculate process parameters

 Generation of a process parameter set comprising the digital representation of the substance, the process plan and the process parameters.

3. The method claim 2, characterized in that

 - The definition of the process on a first, preferably stationary computer system

 he follows,

 the process parameter set is transferred from the first computer system to a second, preferably mobile computer system,

 the overview of the process being displayed on a screen of the second computer system,

the user selects the displayed overview on the second computer system, the user selects the basic operation, the user linking the basic operation to the device with the aid of the second computer system, the link being used to establish a connection between the second computer system and the device,

 whereby the user digitally represents the substance using the second

 Computer system linked to the batch of substance

 wherein process parameters are transmitted from the second computer system to the device and / or process data from the device to the second computer system, the process data and / or events being recorded by the second computer system

 - The result data set based on the recorded process data and / or

 Events generated by the second computer system

 wherein the result record from the second computer system to the first

 Computer system is transmitted over a network,

 the result data record being stored on the first computer system.

4. The method according to any one of claims 1 to 3, characterized in that the linking of the digital representation of the substance with the batch of the substance comprises the following steps:

 Select the digital representation on the computer system

 - Reading in a unique identifier, which is attached to the batch of the substance or a container in which the substance is located

 Storage of the information that the basic operation is carried out with the batch of the substance whose unique identifier has been read in, on the computer system as part of the result data record.

5. The method according to any one of claims 1 to 4, characterized in that the combination of the basic operation with the device comprises the following steps:

 Reading in a unique identifier of the device

 Storing the information that the basic operation with the device whose unique identifier has been read in is carried out on the computer system as part of the

 Results record

 Establishing a connection between the device and the computer system, via which process parameters can be transmitted from the computer system to the device and / or from the device to the computer system

6. The method according to any one of claims 1 to 5, further comprising the steps of:

 Determining properties of the batch of the substance and / or the substance on the basis of the unique identification of the batch of the substance from a database,

Checking the compatibility of the batch of the substance with the basic operation to be carried out by comparing the properties with process parameters and / or process steps and identifying defined deviations.

7. The method according to any one of claims 1 to 6, further comprising the steps:

 Determining properties of the device based on the unique identifier of the

 Contraption,

 Checking the compatibility of the device with the basic operation to be carried out by comparing the properties with process parameters and / or process steps and

 Identify defined deviations.

8. System comprehensive

 at least one computer system and

 - A device for performing a basic operation

the at least one computer system and the device being connectable to one another directly or via a network

wherein the at least one computer system is configured

 Receiving input from a user, the input relating to the definition of a process, the determination of the process comprising:

 Selecting and / or entering a digital representation of a substance Selecting and / or entering a process plan

 Selecting and / or entering and / or calculating process parameters to generate a process parameter set, the process parameter set comprising the digital representation of the substance, the process plan and the process parameters, to display an overview of the process on a screen of the at least one computer system

 accept further input from a user, the input comprising:

 Select the overview displayed

 - Select a basic operation

 Link the basic operation with the device for performing the

 Basic operation, the connection being used to establish a connection between the at least one computer system and the device

 Link the digital representation of the substance to a batch of the substance

 Transfer process parameters to the device and / or process data from the

Receive device

 Record process data and / or events

 generate a result data record based on the recorded process data and / or the recorded events

 save the result record.

9. System according to claim 8 comprising

 a first, preferably stationary computer system

 - A second, preferably mobile computer system

the device for performing a basic operation wherein the first computer system and the second computer system can be connected to one another via a first network

wherein the second computer system and the device can be connected to one another via a second network

wherein the first computer system is configured

 Receiving input from a user, the input relating to the definition of a process, the determination of the process comprising:

 Selection and / or input of a digital representation of at least one substance Selection and / or input of at least one process plan

 Selection and / or input and / or calculation of process parameters

 generate a process parameter set, the process parameter set being the digital one

 Representation of the at least one substance, the process plan and the process parameters

 to transmit the process parameter set to the second computer system

 receive a result data record from the second computer system

 save the result record.

wherein the second computer system is configured

 receive the process parameter set from the first computer system

 to display an overview of the process on a screen of the second computer system to receive input from a user, the input comprising:

 Select the overview displayed

 Select the at least one basic operation

 Linking the at least one basic operation to a device

 Linking the at least one digital substance to a batch of the substance to transmit process parameters to the device and / or process data from the

 Receive device

 Record process data and / or events

 generate a result data record based on the recorded process data and / or events

 to transmit the result data record to the first computer system.

 10. Computer program product comprising a program code, which is stored on a data carrier, and which causes a computer to carry out the following steps when the program code is loaded into the main memory of the computer:

 Receiving or determining a process parameter set for a process, the process parameter set comprising a digital representation of a substance, a process plan and process parameters

 Display an overview of the process on a screen

 Receiving input from a user, the input comprising:

 Select the overview displayed

 Select a basic operation

Linking the basic operation to a device, whereby the link creates a connection between the computer system and the device Linking the digital representation of the substance to a batch of the substance Transferring process parameters to the device and / or receiving process data from the device

 Recording process data and / or events

 Generation of a result data record based on the recorded process data and / or the recorded events

 Transfer of the result data set to a computer system and / or a data store.