Circuitry for use in connection with a conductive target may include an interface, a conductive target zone, a plurality of conductive lead lines electrically connecting the interface to the at least one conductive target zone, and at least one processor. The at least one processor may detect via the interface, a first electrical signal representing severance of a portion of the conductive target zone by a projectile hit within the at least one conductive target zone; detect via the interface a second electrical signal, different from the first electrical signal, wherein the second electrical signal represents severance of one of the plurality of lead lines by a projectile hit on the one of the plurality of lead lines; trigger an indicator of a target hit in response to the first electrical signal; and prevent triggering of the target hit indicator in response to the second electrical signal.

A ballistic body armor damage sensing system having a body armor ballistic plate including at least one ballistic layer and at least one damage sensing layer coupled to the at least one ballistic layer and including a plurality of electrically conductive members which are positioned throughout said damage sensing layer, wherein when a fired projectile impacts the body armor ballistic plate and damages one or more of the electrically conductive members, the damaged electrically conductive members exhibit a measurable change in electrical resistance.

A damage detection and remediation system includes a sensing device for detecting damage events related to a structure of interest. Such damage events may include impact from a ballistic object, a tamper event, a physical impact, or other events that may affect structural integrity or cause failure. Illustratively, the sensing device is in communication with a measurement system to determine damage criteria, and a processing system which is configured to use the damage criteria to determine, for example, a direction of the initiation point of a ballistic causing the damage event.

A protective garment contains a projectile detection device, in addition to impact and breach resistant materials for protecting the wearer. An arrangement of force sensitive regions defines a grid arrangement responsive to an incoming projectile. The force sensitive regions include pressure sensitive or piezoelectric characteristics such that an impact varies the electrical response of each region. A detection circuit connects to each region for sampling. A sampling of the regions computes a high velocity impact by a sudden change in the sensed electrical characteristics, such as a sudden drop in resistance between two planer sheets. The grid arrangement identifies the impact placement on the garment, and can be mapped to anatomical regions to evaluate a severity. Placement and impact force, along with GPS coordinates of the wearer, are transmitted by the detection circuit and/or in conjunction with an app on a mobile device of the wearer for alerting first responders.

An interactive target system including a first target assembly having a first target base operationally engaged with a first anchoring component, a first target surface rotatably engaged with, or fixed to, the first target base, a first spring adapted to bias the first target surface into the open position, a first electronics component having a first target GPS operationally engaged with the first target assembly, a first target strike status detector adapted to generate a first target strike count, and a first target electromagnetic signal transmitter and receiver, a first cooperating signal device having a first cooperating signal device GPS operationally engaged with the first cooperating signal device, a first cooperating signal device electromagnetic signal transmitter and receiver, a clock, and a first sound generator adapted to selectably generate a first notification sound.

An interactive target system including a first target assembly having a first target base operationally engaged with a first anchoring component, a first target surface rotatably engaged with, or fixed to, the first target base, a first spring adapted to bias the first target surface into the open position, a first electronics component having a first target GPS operationally engaged with the first target assembly, a first target strike status detector adapted to generate a first target strike count, and a first target electromagnetic signal transmitter and receiver, a first cooperating signal device having a first cooperating signal device GPS operationally engaged with the first cooperating signal device, a first cooperating signal device electromagnetic signal transmitter and receiver, a clock, and a first sound generator adapted to selectably generate a first notification sound.

An interactive target system including a first target assembly having a first target base operationally engaged with a first anchoring component, a first target surface rotatably engaged with, or fixed to, the first target base, a first spring adapted to bias the first target surface into the open position, a first electronics component having a first target GPS operationally engaged with the first target assembly, a first target strike status detector adapted to generate a first target strike count, and a first target electromagnetic signal transmitter and receiver, a first cooperating signal device having a first cooperating signal device GPS operationally engaged with the first cooperating signal device, a first cooperating signal device electromagnetic signal transmitter and receiver, a clock, and a first sound generator adapted to selectably generate a first notification sound.

A ballistic body armor damage sensing system having a body armor ballistic plate including at least one ballistic layer and at least one damage sensing layer coupled to the at least one ballistic layer and including a plurality of electrically conductive members which are positioned throughout said damage sensing layer, wherein when a fired projectile impacts the body armor ballistic plate and damages one or more of the electrically conductive members, the damaged electrically conductive members exhibit a measurable change in electrical resistance.

This apparatus offers multiple training scenarios which designates the targets to be hit and evaluates response. The apparatus assists in the evaluation and training of a shooter using multiple scenarios, detection of target strikes, timing, accuracy, and threat assessment. The system may be used with unmodified weapons and may not require attachments to weapon or shooter. The light source(s) in this apparatus may include visible lasers, focused light emitters, video or image projectors. The shooter may use live ammunition, and the weapon may be fired and operated independently of the control system. Hit detection on the targets may use vibration, accelerometer, acoustic, optical or thermal sensors that respond to projectile strikes on the designated target(s). If the specific location of the strike on the target is desired, nested targets and multiple sensor triangulation calculations may be used. This system designates which targets to shoot, when to fire, and evaluates the results.

An active target has a target face that is backlit by LEDs, where a detection layer behind the target face detects a new projectile hole in the target, such as from a gun or an arrow. The detection layer may be formed of one or more resistive layers, and the detected increase in resistance due to a new projectile hole being created is sensed and correlated to an XY position of the hole. The location of the new hole is transmitted via an RF signal to the shooter's portable device, such as a smartphone, and the shooter sees the location of the hit relative to the target face in real time. The LEDs may be dynamically controlled. The target is disposable and is supported by a support base containing the control electronics and transmitter.