A method and system for automatically detecting a location is provided. The method includes receiving by a vehicle, data describing a specified geographical area of a collapsed structure. A received control signal enables control of the vehicle such that the vehicle initiates motion and navigates in a specified direction towards the specified geographical area and upon arriving at the specified geographical area, a size and a magnitude of the collapsed structure is determined via sensors of the vehicle. A center location of the collapsed structure is determined and the vehicle hovers above the center location. Geographical coordinates of the location above the center location are transmitted to a search and rescue system and the center location is scanned via ground penetrating radar. Open spaces within the collapsed structure are determined and scanned to locate living entities within the open spaces.

A system includes at least one article of personal protective equipment, one or more industrial devices, an industrial controller device configured to output industrial controller data indicative of one or more attributes of the one or more industrial devices, and a computing device. The computing devices is configured to determine a set of one or more safety rules corresponding to a work environment at the first time and determine a change in an attribute of the one or more attributes of the one or more industrial devices. The computing device is further configured to identify an updated set of one or more worker safety rules corresponding to the work environment at the second time and determine whether the status of at least one article of personal protective equipment satisfies the updated set of one or more worker safety rules. The computing devices is further configured to perform at least one action based on determining whether the at least one article of personal protective equipment satisfies the updated set of one or more worker safety rules.

A system is provided for emergency egress training. The system includes a training building including a first story simulating a basement of a second building and a second story simulating a first story of the second building. The system further includes a platform defining an opening and including a base configured to mount the platform on a ground surface. The system also includes an egress well operatively connected to the platform at the opening such that a base of the egress well is positioned above the ground surface and wherein the egress well is further operatively connected to the first story of the training building. An emergency egress training method is also provided.

A method, system and computer program product are provided for implementing route generation with augmented reality. A crowd or event is analyzed and escape routes are intelligently distributed by attendee profile type or ability. Augmented Reality (AR) projections are used representing different subsets of an event population to convey the profile-specific escape routes for people to follow. The AR behavior is changed as an event situation changes.

A method, system and computer program product are provided for implementing route generation with augmented reality. A crowd or event is analyzed and escape routes are intelligently distributed by attendee profile type or ability. Augmented Reality (AR) projections are used representing different subsets of an event population to convey the profile-specific escape routes for people to follow. The AR behavior is changed as an event situation changes.

A self-retracting lanyard including a main body and a retractable line. The retractable line is coupled to the main body so as to be extendible and retractable relative to the main body and to be restricted from extending relative to the main body in response to a user of the self-retracting lanyard falling. The self-retracting lanyard further includes a manual control operable by the user to initiate controlled descent of the retractable line relative to the main body. The manual control may be operable by the user to deliver a fluid (e.g. compressed gas) from a fluid supply disposed in a housing of the manual control to an actuator of the main body to initiate controlled descent. Solar panel(s) may be disposed on the main body. When the retractable line is retracted, the housing may dock with and be charged by a solar powered charger disposed on the main body.

A self-retracting lanyard including a main body and a retractable line. The retractable line is coupled to the main body so as to be extendible and retractable relative to the main body and to be restricted from extending relative to the main body in response to a user of the self-retracting lanyard falling. The self-retracting lanyard further includes a manual control operable by the user to initiate controlled descent of the retractable line relative to the main body. The manual control may be operable by the user to deliver a fluid (e.g. compressed gas) from a fluid supply disposed in a housing of the manual control to an actuator of the main body to initiate controlled descent. Solar panel(s) may be disposed on the main body. When the retractable line is retracted, the housing may dock with and be charged by a solar powered charger disposed on the main body.

A system for delivering multiple life-support services within a flexible protective covering, a plurality of different breathing gasses, safety tether, a plurality of ancillary lines for documentable, multidirectional, multi-format data/communications acquisition and delivery, personal/situational awareness and ancillary power sources for tool, accessory or device enervation, to a plurality of Users in an adverse environment.

A system for delivering multiple life-support services within a flexible protective covering, a plurality of different breathing gasses, safety tether, a plurality of ancillary lines for documentable, multidirectional, multi-format data/communications acquisition and delivery, personal/situational awareness and ancillary power sources for tool, accessory or device enervation, to a plurality of Users in an adverse environment.

Rapid evacuation of individuals from any building can be problematic. A hospital even more so as patient's often have the necessary motor skills but limited mobility. However, babies within neo-natal intensive care, infants and toddlers are particularly problematic as even under imminent danger they exhibit limited or no coordinated motor skills. In such situations an embodiment provides for evacuation devices for use by a single operator to move multiple infants or toddlers simultaneously both across a floor and down one or sets of stairs. Another embodiment provides for evacuation devices for moving intensive care neo-natal babies allowing the evacuation device to be moved by a single operator but allow another to be adjacent to the evacuation device to manually assist breathing both across the floor and within a stairwell as the evacuation device is taken down one or more sets of stairs.