A first screen for displaying information of at least two analysis modules and a second screen for displaying information of only the specific analysis module among the analysis modules are separately displayed based on at least one piece of information among angle information of a display section, position information of the display section, and information of an operation performed on the analysis modules. Thus, the screen corresponding to a situation of an automatic analysis device can be accurately and reliably provided by a user as compared with the conventional one.

Biological samples are prepared on a slide for physician or veterinarian interpretation in a case of a diagnosis for human or animal diseases. The biological samples are specimens taken from certain areas or body fluids of human or animal. The biological samples are placed on the slide and are made ready for an examination without any process or after physical processes. Physicians or veterinarians diagnose by interpreting the biological samples over a microscope. Digitizing data, usage of data processing techniques and automatic reporting are activities reducing a workforce of expert physicians or veterinarians with a developing technology by abandoning manual methods. As digital pathology and hematology are main technical fields, a system and integrated methods about digitizing, analyzing and storing biological samples are given.

Disclosed are particulate matter measuring device and a particulate matter information utilizing system, the particulate matter measuring device including: a particulate matter concentration measuring sensor configured to measure particulate matter concentration information; a location sensing module configured to select location information of a place where the particulate matter concentration information is measured by the particulate matter concentration measuring sensor; a communication module configured to communicate with an electronic device; and a control module configured to output a control signal to control the electronic device, based on the particulate matter concentration information and location information corresponding to the particulate matter concentration information.

A transport system includes a sample rack configured to hold a sample and comprising a notch; a rack storage unit in which the sample rack is stored; a transport path arranged to transport the sample rack moved from the rack storage unit; and a regulating member configured to regulate movement of the sample rack from the rack storage unit toward the transport path, wherein the regulating member is provided at a position corresponding to the notch provided in the sample rack, and enters an interior of the sample rack from the notch and abuts an interior wall of the sample rack as the sample rack moves from the rack storage unit toward the transport path.

Systems and methods that enable automated spray deposition of biological specimens carried on microscope slides are described herein. Aspects of the technology are directed, for example, to automated specimen deposition systems and methods of generating high-quality, reproducible specimen-bearing microscope slides in automated processing systems.

Techniques and apparatus for analytical instrument management and information assessment processes are described. In one embodiment, for example, an apparatus may include at least one memory and logic coupled to the at least one memory. The logic may be configured to perform a test plan on at least one rubber material analytical instrument via accessing a test plan comprising at least one step, generating test plan results responsive to performing the test plan on the at least one rubber material analytical instrument, analyzing the test plan results, and presenting the test plan results on a plurality of graphical user interface (GUI) objects. Other embodiments are described.

Example networked material testing systems include: a database system storing a shared database, the shared database storing a material test procedure and material test result data; a first material test system communicatively coupled to the database system and configured to perform a first type of material test; and a second material test system communicatively coupled to the database system and configured to perform the first type of material test; wherein the database system comprises a computing device configured to execute machine readable instructions which cause the computing device to: transmit a first test program to the first material test system for performance of the first type of material test on a first specimen according to the first test program; store, in the shared database, first test result data received from the first material test system based on execution of the first test program; transmit a second test program to the second material test system for performance of the first type of material test on a second specimen according to the second test program; store, in the shared database, second test result data received from the first material test system or the second material test system based on execution of the second test program; and generate one or more test reports based on the first test program, the first material test system that performed the first test program, the second test program, and the second material test system that performed the second test program.

A system for monitoring tissue samples to be processed by a tissue processor for a histopathology workflow, the system including: a scanner associated with the tissue processor arranged to scan an electronic sample identifier of at least one tissue sample to be processed by the tissue processor; an input module arranged to receive tissue processor workflow data indicative of a tissue processor workflow for the at least one tissue sample to be processed by selected ones of a plurality of processing stations in the tissue processor used for processing the at least one tissue sample; a monitoring module arranged to monitor properties of the at least one tissue sample processed at each of the selected ones of the processing stations and to record the properties of the at least one tissue sample in association with the electronic sample identifier in a sample record for the tissue processor workflow; and an output module arranged to output the sample record to one or more laboratory instruments for further processing the at least one tissue sample in a histopathology workflow. A tissue processor for processing tissue samples for a histopathology workflow is also provided. A method of monitoring tissue samples to be processed by a tissue processor for a histopathology workflow is also provided.

A server stores a set of laboratory applications to process batches of samples. The server receives, from a first lab administrator, a selection of a subset of the laboratory applications to process the batches of samples and an admin configuration for a laboratory application in the subset. The server receives configuration(s) of batch(es) to be used for running at least a portion of the subset of laboratory applications configured according to the admin configuration. The server receives, from a first scientific device, a request to run a laboratory application form the first subset to process a batch. The server provides the laboratory application(s) that are capable of being executed using the first scientific device. The server receives, from the first scientific device, a selected laboratory application. The server transmits, to the first scientific device, a signal for executing a first part of the selected laboratory application.

An automated system for processing a sample contained in a liquid sample container includes an automated tool head configured to rotate about a first axis, and to translate along a second axis different than the first axis, an analytic element positioner having an analytic element holder configured to releasably grip an analytic element, and a specimen transfer device carried by the tool head, wherein the tool head is configured to automatically position a working end of the specimen transfer device to obtain a specimen from a sample container held in the sample container holder, and to transfer the obtained specimen to an analytic element held by the analytic element holder, respectively, through one or both of rotation of the tool head about the first axis and translation of the tool head along the second axis.