In an exemplary embodiment, a gun-mounted recording device comprises a housing configured to be mounted to a gun, a recording module arranged within the housing, the recording module comprising a first electrical contact, and a power supply configured to be detachably coupled to the housing. The power source comprises a second electrical contact. The first electrical contact and the second electrical contact are configured to contact each other and form a circuit when the power source is coupled to the housing in order for the power source to supply power to the recording module. The first electrical contact, the second electrical contact, or both are configured to move in response to relative movement between the power source and the housing when the power source is coupled to the housing, in order to maintain the supply of power from the power source to the recording module.

In an exemplary embodiment, a gun-mounted recording device comprises a housing configured to be mounted to a gun, a recording module arranged within the housing, the recording module comprising a first electrical contact, and a power supply configured to be detachably coupled to the housing. The power source comprises a second electrical contact. The first electrical contact and the second electrical contact are configured to contact each other and form a circuit when the power source is coupled to the housing in order for the power source to supply power to the recording module. The first electrical contact, the second electrical contact, or both are configured to move in response to relative movement between the power source and the housing when the power source is coupled to the housing, in order to maintain the supply of power from the power source to the recording module.

An apparatus is disclosed. The apparatus may include a housing detachably coupleable to an end of a sighting device. The housing may include a channel protruding from a side of the housing. The apparatus may include a one-way mirror disposed inside the housing. The one-way mirror may be positioned to allow an image from the sighting device to pass through the one-way mirror and reflect the image from the sighting device through the channel. The apparatus may include a mounting plate coupled to the housing. The mounting plate may include one or more adjustment bars that may be engageable with a visual recording device.

An apparatus is disclosed. The apparatus may include a housing detachably coupleable to an end of a sighting device. The housing may include a channel protruding from a side of the housing. The apparatus may include a one-way mirror disposed inside the housing. The one-way mirror may be positioned to allow an image from the sighting device to pass through the one-way mirror and reflect the image from the sighting device through the channel. The apparatus may include a mounting plate coupled to the housing. The mounting plate may include one or more adjustment bars that may be engageable with a visual recording device.

A ruggedized holder has a base unit that accepts a roll of target media. The base unit includes a first side plate and a second side plate that opposes the first side plate. Moreover, a lower deflector plate having a front facing surface extends between the first side plate and the second side plate. Also, the base unit includes an upper deflector plate that extends between the first side plate and the second side plate above the lower deflector plate. The first side plate, the second side plate, the lower deflector plate and the upper deflector plate define an enclosure that protects the roll of target media. In addition, a stand can couple to the base unit.

An electronic target measurement system is disclosed such that the system includes image capture device(s), an access point device, and a user device. Each image capture device acquires a series of successive real-time images of at least one target with a plurality of regions of interest (ROIs). The access point device receives the images and transmits the images to a user device. The user device performs image preprocessing on the images, determines via an image differentiation process that a difference exists between the images, extracts the ROIs and locations of impact (LOIs) from the received image, and determines ROI center points, LOIs within the ROIs, and LOI center points. The user device also determines regional scores based on the distances between the ROI center points the LOI center points, and then a total score by adding the regional scores for the plurality of extracted ROIs.

An electronic target measurement system is disclosed such that the system includes image capture device(s), an access point device, and a user device. Each image capture device acquires a series of successive real-time images of at least one target with a plurality of regions of interest (ROIs). The access point device receives the images and transmits the images to a user device. The user device performs image preprocessing on the images, determines via an image differentiation process that a difference exists between the images, extracts the ROIs and locations of impact (LOIs) from the received image, and determines ROI center points, LOIs within the ROIs, and LOI center points. The user device also determines regional scores based on the distances between the ROI center points the LOI center points, and then a total score by adding the regional scores for the plurality of extracted ROIs.

In an exemplary embodiment, a gun-mounted recording device comprises a housing configured to be mounted to a gun, a recording module arranged within the housing, the recording module comprising a first electrical contact, and a power supply configured to be detachably coupled to the housing. The power source comprises a second electrical contact. The first electrical contact and the second electrical contact are configured to contact each other and form a circuit when the power source is coupled to the housing in order for the power source to supply power to the recording module. The first electrical contact, the second electrical contact, or both are configured to move in response to relative movement between the power source and the housing when the power source is coupled to the housing, in order to maintain the supply of power from the power source to the recording module.

In an exemplary embodiment, a gun-mounted recording device comprises a housing configured to be mounted to a gun, a recording module arranged within the housing, the recording module comprising a first electrical contact, and a power supply configured to be detachably coupled to the housing. The power source comprises a second electrical contact. The first electrical contact and the second electrical contact are configured to contact each other and form a circuit when the power source is coupled to the housing in order for the power source to supply power to the recording module. The first electrical contact, the second electrical contact, or both are configured to move in response to relative movement between the power source and the housing when the power source is coupled to the housing, in order to maintain the supply of power from the power source to the recording module.

A system for assisting one's vision while aiming a firearm, includes a scope (but may also not include a scope) that is operable to capture light from an object downfield, and an optical collar that is operable to divert some or all of the light captured, and generate an image of the object. The scope has a first end and a second end. The first end captures light from the object located downfield from the first end, and looking through the second end, one receives the light captured by the first end, and generates an image of the object from the captured light. The optical collar includes a camera operable to generate an image from light that the camera receives, a beam-splitter optically aligned with the second end of the scope and operable to reflect a portion of the light captured by the scope's first end toward the camera, and a display operable to show the image generated by the camera from the light that the camera receives.