A system and method for detecting hits to a target carrier and taking corrective measures and/or for detecting hits to a target carried by the target carrier may include one or more sensors or cameras disposed in conjunction with the target carrier. The target carrier may be provided with a processor in communication with a sensor, and the processor may also be in communication with a motor and/or actuator of the target carrier. The sensor may be able to sense hits to the target carrier and send a strike signal to the processor in response to such hits. The processor may then take corrective action, such as causing the target carrier to return to a home position, cause the target actuator to turn or edge the target, and/or send a signal to the range operators that the target carrier has been hit. The target carrier may also be provided with a camera for visualizing a target carried by the target carrier.

An imaging device captured images of a scene that includes at least one shooter. Each shooter of the at least one shooter operates an associated firearm to discharge one or more projectile. A positioning mechanism positions an infrared filter in and out of a path between the imaging device and the scene. A processing system processes images of the scene when the infrared filter is positioned in the path to detect projectile discharges in response to each shooter of the at least one shooter firing the associated firearm. The processing system processes images of the scene captured when the infrared filter is positioned out of the path to identify, for each detected projectile discharge, a shooter of the at least one shooter that is associated with the detected projectile discharge.

A shooting target assembly includes a balance bar having a center portion that is rotatably connected to a support, a first target assembly rotatably connected to a first end of the balance bar at a first pivot point, and a second target assembly rotatably connected to a second end of the balance bar at a second pivot point. The first target assembly includes a plurality of first target zones, the second target assembly includes a plurality of second target zones, each of the first target zones and each of the second target zones is configured to engage one or more targets, and the balance bar is configured to rotate about the center portion in response to one or more of the targets being broken.

A shooting target assembly includes a balance bar having a center portion that is rotatably connected to a support, a first target assembly rotatably connected to a first end of the balance bar at a first pivot point, and a second target assembly rotatably connected to a second end of the balance bar at a second pivot point. The first target assembly includes a plurality of first target zones, the second target assembly includes a plurality of second target zones, each of the first target zones and each of the second target zones is configured to engage one or more targets, and the balance bar is configured to rotate about the center portion in response to one or more of the targets being broken.

Apparatus and methods for removing leakage from a qubit. In one aspect, an apparatus includes one or more qubits, wherein each qubit facilitates occupation of at least one of a plurality of qubit levels, the qubit levels including two computational levels and one or more non-computational levels that are each higher than the computational levels, wherein the qubit facilitates transitions between qubit levels associated with a corresponding transition frequency; a cavity, wherein the cavity defines a cavity frequency; one or more couplers coupling each qubit to the cavity; one or more couplers coupling the cavity to an environment external to the one or more qubits and the cavity; a frequency controller that controls the frequency of each qubit such that, for each qubit, the frequency of the qubit is adjusted relative to the cavity frequency such that a population of a non-computational level is transferred to the cavity.

Apparatus and methods for removing leakage from a qubit. In one aspect, an apparatus includes one or more qubits, wherein each qubit facilitates occupation of at least one of a plurality of qubit levels, the qubit levels including two computational levels and one or more non-computational levels that are each higher than the computational levels, wherein the qubit facilitates transitions between qubit levels associated with a corresponding transition frequency; a cavity, wherein the cavity defines a cavity frequency; one or more couplers coupling each qubit to the cavity; one or more couplers coupling the cavity to an environment external to the one or more qubits and the cavity; a frequency controller that controls the frequency of each qubit such that, for each qubit, the frequency of the qubit is adjusted relative to the cavity frequency such that a population of a non-computational level is transferred to the cavity.

Shooting training systems have a self-propelled robotic target support platform operable to navigate on an extended surface, the platform supporting a target, the platform including a sensor array adapted to detect and register shot information about a shot generated by a shooter passing proximate the target, a transmitter on the platform adapted to transmit the shot information, and a receiver associated with the shooter adapted to receive the shot information and to provide shot information to the shooter. The platform may be a vehicle adapted to operate over a ground surface in any direction. The platform may be a watercraft. The platform may be a wheeled vehicle. The sensor array may be adapted to detect and register shot information including a location and direction of the shot. There may be a plurality of robotic target support platforms, each having a sensor array. The receiver may be adjacent to the shooter.

Shooting training systems have a self-propelled robotic target support platform operable to navigate on an extended surface, the platform supporting a target, the platform including a sensor array adapted to detect and register shot information about a shot generated by a shooter passing proximate the target, a transmitter on the platform adapted to transmit the shot information, and a receiver associated with the shooter adapted to receive the shot information and to provide shot information to the shooter. The platform may be a vehicle adapted to operate over a ground surface in any direction. The platform may be a watercraft. The platform may be a wheeled vehicle. The sensor array may be adapted to detect and register shot information including a location and direction of the shot. There may be a plurality of robotic target support platforms, each having a sensor array. The receiver may be adjacent to the shooter.

The present invention relates to systems and methods for accurately and safely directing the movement of shooting range targets, and more specifically, to provide self-calibration and synchronicity to programmable target carriers and automatically resetting targets.

The present invention relates to systems and methods for accurately and safely directing the movement of shooting range targets, and more specifically, to provide self-calibration and synchronicity to programmable target carriers and automatically resetting targets.