A factory management system has a database for managing a factory in which a production line is provided. The factory management system includes a communication unit, a collection and storage unit and a compilation and display unit. The communication unit connects production facilities of the production line with host systems such that the production facilities and the host systems communicate with each other. The collection and storage unit is one of the host systems and collects production status data on a production status from the production facilities via the communication unit and stores the production status data in the database. The compilation and display unit is provided separately from the collection and storage unit via a communication interface. The compilation and display unit compiles a predetermined data out of the production status data stored in the database and display the first predetermined data.

A method includes measuring raw sensor information of a tool over a period of time with a sensor tag coupled to an external surface of the tool. The method also includes determining one or more events of the tool based on the raw sensor information. The one or more events includes a free fall event of the tool. The method also includes calculating a free fall time and a free fall height based on the raw sensor information over the period of time. The method also includes wirelessly transmitting a history of the one or more events from the sensor tag to a remote computing device. The history includes the free fall event, the free fall time, and the free fall height of the tool.

A method includes measuring raw sensor information of a tool over a period of time with a sensor tag coupled to an external surface of the tool. The method also includes determining one or more events of the tool based on the raw sensor information. The one or more events includes a free fall event of the tool. The method also includes calculating a free fall time and a free fall height based on the raw sensor information over the period of time. The method also includes wirelessly transmitting a history of the one or more events from the sensor tag to a remote computing device. The history includes the free fall event, the free fall time, and the free fall height of the tool.

An example material testing system includes: an actuator configured to control an operator-accessible component of the material testing system; and one or more processors configured to: control the actuator based on a material testing process; determine, based on a plurality of inputs, a state of the material testing system from a plurality of predetermined states, the predetermined states comprising one or more unrestricted states and one or more restricted states; when the state of the material testing system is one of the restricted states, enforce a restriction on the actuator; and in response to completion of an automated material test process involving controlling the actuator, automatically set the state of the material testing system to one of the restricted states.

A calibration device performs calibration based on detection results of an object from a sensor. The calibration device includes a determiner that determines, based on a size of a field of view of the sensor and a size of the object, a range in which a posture of a robotic arm with the object attached or with the sensor attached to detect the object is changed, an obtainer that repeatedly obtains a combination of information about the posture of the robotic arm and a detection result of the object from the sensor while the posture of the robotic arm is being changed within the range determined by the determiner to obtain a plurality of the combinations, and a calibrator that performs, based on the plurality of combinations obtained by the obtainer, calibration to determine correspondence between the postures of the robotic arm and the detection results of the object.

A calibration device performs calibration based on detection results of an object from a sensor. The calibration device includes a determiner that determines, based on a size of a field of view of the sensor and a size of the object, a range in which a posture of a robotic arm with the object attached or with the sensor attached to detect the object is changed, an obtainer that repeatedly obtains a combination of information about the posture of the robotic arm and a detection result of the object from the sensor while the posture of the robotic arm is being changed within the range determined by the determiner to obtain a plurality of the combinations, and a calibrator that performs, based on the plurality of combinations obtained by the obtainer, calibration to determine correspondence between the postures of the robotic arm and the detection results of the object.

Systems, user interfaces, and methods related to irrigation control systems are provided herein. In some embodiments, an irrigation control system includes an irrigation management application which, when executed by an electronic device, causes a user interface to be displayed to a user. The user interface includes features that permit a user to do one or more of configure, monitor, program, control, adjust various components and/or operations of the irrigation management system.

Systems, user interfaces, and methods related to irrigation control systems are provided herein. In some embodiments, an irrigation control system includes an irrigation management application which, when executed by an electronic device, causes a user interface to be displayed to a user. The user interface includes features that permit a user to do one or more of configure, monitor, program, control, adjust various components and/or operations of the irrigation management system.

A method of controlling tint of a tintable window to account for occupant comfort in a room of a building. The tintable window is between the interior and exterior of the building. The method predicts a tint level for the tintable window at a future time based on lighting received through the tintable window into the room at the future time and space type in the room. The method also provides instructions over a network to transition tint of the tintable window to the tint level.

A method of controlling tint of a tintable window to account for occupant comfort in a room of a building. The tintable window is between the interior and exterior of the building. The method predicts a tint level for the tintable window at a future time based on lighting received through the tintable window into the room at the future time and space type in the room. The method also provides instructions over a network to transition tint of the tintable window to the tint level.