In one embodiment, a safety trailer has semi-tractor hitches at both ends and a safety wall that is fixed to one side of the trailer. That side, however, can be changed to the right or left side of the road, depending on the end to which the truck attaches. A caboose can be attached at the end of the trailer opposite the tractor to provide additional lighting and impact protection. Optionally, the trailer can be equipped with overhead protection, lighting, ventilation, onboard hydraulics, compressors, generators and other equipment, as well as related fuel, water, storage and restroom facilities and other amenities.

In one embodiment, a safety trailer has semi-tractor hitches at both ends and a safety wall that is fixed to one side of the trailer. That side, however, can be changed to the right or left side of the road, depending on the end to which the truck attaches. A caboose can be attached at the end of the trailer opposite the tractor to provide additional lighting and impact protection. Optionally, the trailer can be equipped with overhead protection, lighting, ventilation, onboard hydraulics, compressors, generators and other equipment, as well as related fuel, water, storage and restroom facilities and other amenities.

In an approach to creating assembly plan for disaster mitigation, one or more computer processors identify one or more triggering events. The one or more computer processors receive one or more configuration parameters for one or more assembly plans pertaining to the one or more triggering events. The one or more computer processors analyze the one or more configuration parameters to determine necessary configuration parameters based upon the identified one or more triggering events. The one or more computer processors create the one or more assembly plans containing one or more instructions for one or more self-assembling robots based on the determined necessary configuration parameters. The one or more computer processors send the one or more assembly plans to one or more self-assembling robots.

In an approach to creating assembly plan for disaster mitigation, one or more computer processors identify one or more triggering events. The one or more computer processors receive one or more configuration parameters for one or more assembly plans pertaining to the one or more triggering events. The one or more computer processors analyze the one or more configuration parameters to determine necessary configuration parameters based upon the identified one or more triggering events. The one or more computer processors create the one or more assembly plans containing one or more instructions for one or more self-assembling robots based on the determined necessary configuration parameters. The one or more computer processors send the one or more assembly plans to one or more self-assembling robots.

The present invention is directed to systems and methods for aerially detecting and identifying explosives on the ground, and more specifically systems and methods for detecting and identifying landmines and unexploded ordnance (UXO) on the surface.

The present invention is directed to systems and methods for aerially detecting and identifying explosives on the ground, and more specifically systems and methods for detecting and identifying landmines and unexploded ordnance (UXO) on the surface.

In an approach to creating assembly plan for disaster mitigation, one or more computer processors identify one or more triggering events. The one or more computer processors receive one or more configuration parameters for one or more assembly plans pertaining to the one or more triggering events. The one or more computer processors analyze the one or more configuration parameters to determine necessary configuration parameters based upon the identified one or more triggering events. The one or more computer processors create the one or more assembly plans containing one or more instructions for one or more self-assembling robots based on the determined necessary configuration parameters. The one or more computer processors send the one or more assembly plans to one or more self-assembling robots.

An IED detection training device can include a barrel which can be adapted to receive a blank ammunition cartridge. A housing can be connected to the barrel, and a firing pin having a tab extending from the firing pin can be disposed in the housing. A spring can surround the firing pin, and a sleeve having a slot can surround the sleeve so that the firing pin tab is disposed in the sleeve slot. A lever can be pivotably attached to the housing so that the lever selectively engages the tab. A pull ring can also be pivotably attached to the housing, to selectively engage the lever. Pivoting of the pull ring can cause pivoting engagement of the lever and disengagement of the tab, which can further cause the spring to move the firing pin forward to strike the ammunition blank cartridge.

In an approach to creating assembly plan for disaster mitigation, one or more computer processors identify one or more triggering events. The one or more computer processors receive one or more configuration parameters for one or more assembly plans pertaining to the one or more triggering events. The one or more computer processors analyze the one or more configuration parameters to determine necessary configuration parameters based upon the identified one or more triggering events. The one or more computer processors create the one or more assembly plans containing one or more instructions for one or more self-assembling robots based on the determined necessary configuration parameters. The one or more computer processors send the one or more assembly plans to one or more self-assembling robots.

In an approach to creating assembly plan for disaster mitigation, one or more computer processors identify one or more triggering events. The one or more computer processors receive one or more configuration parameters for one or more assembly plans pertaining to the one or more triggering events. The one or more computer processors analyze the one or more configuration parameters to determine necessary configuration parameters based upon the identified one or more triggering events. The one or more computer processors create the one or more assembly plans containing one or more instructions for one or more self-assembling robots based on the determined necessary configuration parameters. The one or more computer processors send the one or more assembly plans to one or more self-assembling robots.