A tool system includes a tool, an image capturing unit, a processing unit, and a set state detection unit. The tool is a portable tool including a driving unit to be activated with power supplied from a power source. The image capturing unit is provided for the tool and generates a captured image. The processing unit intermittently performs identification processing of identifying a work target based on the captured image. The set state detection unit detects a state where the tool is set in place on the work target.

A system, device, application stored on non-transitory memory, and method can be configured to help a user of a device locate and pick up objects around them. Embodiments can be configured to help vision-impaired users find, locate, and pickup objects near them. Embodiments can be configured so that such functionality is provided locally via a single device so the device is able to provide assistance and hand guidance without a connection to the internet, a network, or another device (e.g. a remote server, a cloud based server, a server connectable to the device via an application programming interface, API, etc.).

A system, device, application stored on non-transitory memory, and method can be configured to help a user of a device locate and pick up objects around them. Embodiments can be configured to help vision-impaired users find, locate, and pickup objects near them. Embodiments can be configured so that such functionality is provided locally via a single device so the device is able to provide assistance and hand guidance without a connection to the internet, a network, or another device (e.g. a remote server, a cloud based server, a server connectable to the device via an application programming interface, API, etc.).

A computing device equipped with a camera may be used to assist a person in planning and traversing exit routes for a premises. For example, a user may be able to interact with one or more user interfaces generated by the computing device to determine an exit route for the premises. The user may be able to identify various objects, such as stairs or doors, along the exit route. The user may be able to identify graphical or textual information that can be displayed at certain points along the exit route. After determining the exit route, a data structure for the exit route may be shared with other users and/or be used to assist a user in traversing the exit route. For example, the data structure may be used as a basis for overlaying graphics and/or text on a real-time video display as the user traverses the exit route.

A peak label object detection system (PLODS) includes an object size database configured to store information related to object size for a plurality of objects. The PLODS further includes a three-dimensional (3D) sensor database configured to store information related to parameters of a 3D sensor. The PLODS further includes an annotation database configured to store ground truth annotation information for images. The PLODS further includes a peak shape parameter calculator configured to determine a peak label size based on object size from the object size database and the parameters of the 3D sensor. The PLODS further includes a label generator configured to generate a peak labels map based on label size and the ground truth annotation information.

A peak label object detection system (PLODS) includes an object size database configured to store information related to object size for a plurality of objects. The PLODS further includes a three-dimensional (3D) sensor database configured to store information related to parameters of a 3D sensor. The PLODS further includes an annotation database configured to store ground truth annotation information for images. The PLODS further includes a peak shape parameter calculator configured to determine a peak label size based on object size from the object size database and the parameters of the 3D sensor. The PLODS further includes a label generator configured to generate a peak labels map based on label size and the ground truth annotation information.

An auxiliary system for intelligent well control includes augmented reality (AR) glasses, a server, and a first sensor group. The first sensor group is configured to collect real-time data of a wellbore and the surface and transmit the real-time data to the server. The server is configured to analyze a target pressure value of a choke valve of the surface according to the real-time data, obtain an actual pressure value of the choke valve of the surface from the real-time data, and transmit the actual pressure value and the target pressure value to the AR glasses. The AR glasses are configured to dynamically display the actual pressure value and the target pressure value in real time. Through the first sensor group and the server, the actual pressure value and the target pressure value can be accurately received by an operator in real time.

An auxiliary system for intelligent well control includes augmented reality (AR) glasses, a server, and a first sensor group. The first sensor group is configured to collect real-time data of a wellbore and the surface and transmit the real-time data to the server. The server is configured to analyze a target pressure value of a choke valve of the surface according to the real-time data, obtain an actual pressure value of the choke valve of the surface from the real-time data, and transmit the actual pressure value and the target pressure value to the AR glasses. The AR glasses are configured to dynamically display the actual pressure value and the target pressure value in real time. Through the first sensor group and the server, the actual pressure value and the target pressure value can be accurately received by an operator in real time.

Provided is a server device with which it is possible to suitably discern whether a user uses an elevator. The server device comprises a first generation unit, a second generation unit, and an output unit. The first generation unit analyzes image data obtained from at least one or more camera devices and generates elevator information pertaining to the usage state of an elevator The second generation unit generates, on the basis of at least the generated elevator information, during-movement reference information that is referred to when the user moves. The output unit outputs the generated during-movement reference information to signage.

Provided is a server device with which it is possible to suitably discern whether a user uses an elevator. The server device comprises a first generation unit, a second generation unit, and an output unit. The first generation unit analyzes image data obtained from at least one or more camera devices and generates elevator information pertaining to the usage state of an elevator The second generation unit generates, on the basis of at least the generated elevator information, during-movement reference information that is referred to when the user moves. The output unit outputs the generated during-movement reference information to signage.