Abstract: A method for providing content responding to a living safety situation is provided such that a method for providing scene response content by a control center server to monitor a living safety situation includes: receiving situation information about a target area from an IoT sensor installed in the target area and an image of the target area from an HMD device deployed to the target area; inputting the image and the situation information into a scenario model previously trained on a method for responding to the living safety situation and analyzing an emergency situation of the living safety situation in the target area; creating scene response content which guides a response plan to the analyzed emergency situation by integrating geographical information about the structure of the target area with the image and the situation information; and transmitting the created scene response content to the HMD device.

Abstract: The present disclosure provides a server, including: a receiving unit that receives an image of a military apparatus from a wearable device worn on the body of a maintenance mechanic; an object recognition unit that recognizes multiple maintenance objects and at least one component object from the image based on a filter that uses an Euclidean distance between pixels in the image; and a maintenance target object extraction unit that predicts a second maintenance target object to be maintained after the maintenance of a first maintenance target object currently being maintained is completed based on predetermined correlation data between the recognized at least one component object and the respective maintenance objects.

Abstract: The present disclosure provides a maintenance supporting server, including: an image receiving unit that receives an image of a military apparatus from a wearable device worn on the body of a maintenance mechanic; an object recognition unit that detects multiple maintenance objects from the image and recognizes at least one component object corresponding to at least one of the detected multiple maintenance objects; a maintenance target object extraction unit that extracts a maintenance target object based on distances between the recognized at least one component object and the respective maintenance objects; and a transmission unit that provides maintenance information of the extracted maintenance target object to the wearable device.

Abstract: The present disclosure provides a server, including: a receiving unit that receives an image of a military apparatus from a wearable device worn on the body of a maintenance mechanic; an object recognition unit that recognizes multiple maintenance objects and at least one component object from the image based on a filter that uses an Euclidean distance between pixels in the image; and a maintenance target object extraction unit that predicts a second maintenance target object to be maintained after the maintenance of a first maintenance target object currently being maintained is completed based on predetermined correlation data between the recognized at least one component object and the respective maintenance objects.

Abstract: A blowing pad, a fabrication method of the blowing pad, and a blowing system using the blowing pad are provided. The blowing pad includes a main foam formed of a foamed porous synthetic resin, and a duct embedded in the main foam, wherein the main foam includes an air inlet to which an air inlet tube is inserted and a plurality of vent holes, each of which is connected to the duct, wherein the duct is formed of any one of natural rubber, synthetic rubber, and non-porous plastic, wherein the air inlet tube is connected to an external blowing pipe.

Abstract: A blowing pad, a fabrication method of the blowing pad, and a blowing system using the blowing pad are provided. The blowing pad includes a main foam formed of a foamed porous synthetic resin, and a duct embedded in the main foam, wherein the main foam includes an air inlet to which an air inlet tube is inserted and a plurality of vent holes, each of which is connected to the duct, wherein the duct is formed of any one of natural rubber, synthetic rubber, and non-porous plastic, wherein the air inlet tube is connected to an external blowing pipe.