How Does our patented technology Detect Gunpowder at a Distance? |
Gunpowder emits small emissions field that passes through normal obstacles. Our proprietary technology captures these emissions and lets the user know there is gunpowder nearby.
The sensor is able to detect gunpowder by sensing these emissions that naturally occurs in smokeless gunpowder. This occurs at very low frequencies and passes through clothing and other barriers used to conceal weapons. This crucial aspect of our sensor is what enables us to identify loaded firearms and smokeless gunpowder bombs among a crowd of people, behind walls and doors, or inside a car during a traffic stop.
Unlike the bulky, traditional full-body scanners and metal detectors that places like airports use, our portable design can be used in any environment. Our sensor is designed to be passive, and uses no harmful radiation or intrusive body scanning. What this means is that police and other security agents can catch the bad guy completely off guard. This is a vital advantage of our design. With our technology, places like schools and public venues, which don’t have the room or money for large scanning devices, can use our sensor to discretely check visitors and students coming in and out of the building for concealed firearms. A side benefit is that this screening is done without slowing the normal flow of traffic.
The sensor is able to detect gunpowder by sensing these emissions that naturally occurs in smokeless gunpowder. This occurs at very low frequencies and passes through clothing and other barriers used to conceal weapons. This crucial aspect of our sensor is what enables us to identify loaded firearms and smokeless gunpowder bombs among a crowd of people, behind walls and doors, or inside a car during a traffic stop.
Unlike the bulky, traditional full-body scanners and metal detectors that places like airports use, our portable design can be used in any environment. Our sensor is designed to be passive, and uses no harmful radiation or intrusive body scanning. What this means is that police and other security agents can catch the bad guy completely off guard. This is a vital advantage of our design. With our technology, places like schools and public venues, which don’t have the room or money for large scanning devices, can use our sensor to discretely check visitors and students coming in and out of the building for concealed firearms. A side benefit is that this screening is done without slowing the normal flow of traffic.
From a user’s perspective, here’s how it works:
•The user points the sensor in a general area of potential targets. The sensor will give a “yes” or “no” read out, indicating that, yes, this area contains gunpowder, or no, it does not. It will then indicate the direction of the origin of the gunpowder.
•Once an area has been identified as being positive for gun powder, the user or users can then approach the target with confidence that the target is concealing some amount of gunpowder.
•Early detection of weapon threats increases changes of minimizing the threat, whether that means automatically locking doors to prevent a gunman from entering a building, sending security personnel to intercept someone concealing a firearm, or alerting police officers to concealed firearms during traffic stops or in the next room.