Provided are a specimen transport device, a specimen analysis system, a specimen pretreatment system, and a specimen transport method that can reduce human errors as compared with the related art. There are a plurality of magnetic bodies having different inductance characteristics, and a calculation unit calculates inductance characteristic values at a predetermined current value flowing through a magnetic pole detected by a current detection unit and specifies the type of the magnetic body having different inductance characteristics based on the obtained characteristic values to identify a holder.

The present disclosure refers to a computer-implemented training system for user-interactive training of a plurality of in-vitro diagnostic (IVD) methods performable in an IVD laboratory system, comprising: one or more data processors; a memory device connected to the one or more data processors; a user interface provided with an output device having a display device and an input device configured to receive user input; and one or more software applications running on the one or more data processors and having a plurality of application modules. The plurality of application modules is further configured to control, in response to receiving user input, output of a plurality of views of the IVD laboratory system through the display device according to view output control data indicative of view parameters assigned to a view output mode from a plurality of view output modes; receive a training mode selection user input indicative of a user selection for an IVD method to be trained from the plurality of methods having an assigned view output mode of the plurality of view output modes.

The present disclosure refers to a computer-implemented training system for user-interactive training of a plurality of in-vitro diagnostic (IVD) methods performable in an IVD laboratory system, comprising: one or more data processors; a memory device connected to the one or more data processors; a user interface provided with an output device having a display device and an input device configured to receive user input; and one or more software applications running on the one or more data processors and having a plurality of application modules. The plurality of application modules is further configured to control, in response to receiving user input, output of a plurality of views of the IVD laboratory system through the display device according to view output control data indicative of view parameters assigned to a view output mode from a plurality of view output modes; receive a training mode selection user input indicative of a user selection for an IVD method to be trained from the plurality of methods having an assigned view output mode of the plurality of view output modes.

A scanning stage with opposing edges to secure a slide during scanning and guide the slide during unloading. In an embodiment, the system includes a reference edge with a surface facing a first edge of the slide and an opposing edge with a surface facing a second edge of the slide. The opposing edge is controlled by a processor to engage the second edge of the slide and press the first edge of the slide against the reference edge surface. The opposing edge surface is parallel to a side of a slide rack slot into which the slide will be inserted during unloading. The system also includes an assembly having a pull bar configured to pull the glass slide from the scanning stage into the slide rack slot while the first edge of the slide is simultaneously being pressed against the reference edge surface by the opposing edge surface.

Graphical user interface for managing a workflow of a slide scanning system. In an embodiment, the graphical user interface comprises a graphical representation of a carousel used by the scanning system. The graphical representation of the carousel comprises a graphical representation of each of a plurality of rack slots, configured to receive slide racks. The graphical representation of the carousel indicates a position of the carousel, and the graphical representation of each of the plurality of rack slots indicates a status of the represented rack slot and/or a slide rack within the represented rack slot.

A sample processing system and method, and a control system and a cell image analysis device. A smear preparation device prepares a sample smear, the cell image analysis device performs imaging and analysis on the sample smear, and the sample smear is placed in a first smear storage device. After the sample smear is placed in the first smear storage device, the first smear storage device placed with the sample smear is conveyed by a conveyer from the smear preparation device to the cell image analysis device, and the first smear storage device is conveyed by the conveyer from the cell image analysis device to the smear preparation device, so that automatic cycle conveying of the first smear storage device between the smear preparation device and the cell image analysis device is achieved by the conveyer, and unnecessary human-machine interaction operations are reduced, thereby reducing workload of a user.

A sample processing system and method, and a control system and a cell image analysis device. A smear preparation device prepares a sample smear, the cell image analysis device performs imaging and analysis on the sample smear, and the sample smear is placed in a first smear storage device. After the sample smear is placed in the first smear storage device, the first smear storage device placed with the sample smear is conveyed by a conveyer from the smear preparation device to the cell image analysis device, and the first smear storage device is conveyed by the conveyer from the cell image analysis device to the smear preparation device, so that automatic cycle conveying of the first smear storage device between the smear preparation device and the cell image analysis device is achieved by the conveyer, and unnecessary human-machine interaction operations are reduced, thereby reducing workload of a user.

The present invention is directed to a system and method for load balancing specimen containers between a plurality of automated detection apparatuses. The method may include receiving a specimen container at a container pick-up station in a first automated detection apparatus; determining loading ability, transfer status, and cell availability of the first automated detection apparatus and one or more downstream automated detection apparatuses; and transferring the specimen container from the first automated detection apparatus to a downstream automated detection apparatus when a first ratio of effective available cell count to effective capacity in the first automated detection apparatus is less than a second ratio of total effective available cell count to total effective capacity of a sum of the first automated detection apparatus and the one or more downstream automated detection apparatuses.

The present disclosure relates to a circulating device, a circulating method, and a sample analyzer. The circulating device includes a mounting rack and an input mechanism, an output mechanism, a recycling mechanism and a transferring mechanism arranged on the mounting rack. The input mechanism is configured to provide a bearing box holding a reaction vessel. The output mechanism is configured to output the bearing box holding the reaction vessel from the input mechanism. The recycling mechanism is configured to recycle the bearing box, which is from the output mechanism and the reaction vessel held by which has been unloaded. The transferring mechanism includes transferring components corresponding to the input mechanism, the output mechanism and the recycling mechanism simultaneously. The transferring components are configured to not only convey the bearing box holding the reaction vessel from the input mechanism to the output mechanism, but also convey the bearing box, the reaction vessel held by which has been unloaded, from the output mechanism to the recycling mechanism. Thus, the structure of the circulating device is more compact.

A real-time online analysis device for substance pyrolysis, including: a pyrolyzing system (1), a capturing system (2), a testing system (3) and a controlling system (4) is disclosed. The pyrolyzing system (1), the capturing system (2) and the testing system (3) are connected with the controlling system (4). The capturing system (2) has a cooling cavity (22) and a heating cavity (23) inside. The temperature of the cooling cavity (22) ranges from room temperature to −200° C., and the temperature of the heating cavity (23) ranges from room temperature to 1000° C. A method for real-time online analysis of substance pyrolysis using the device is also disclosed. The present device can provide real-time online pyrolysis, capturing, separation and analysis of substances at a plurality of temperature points or ranges.