A harness for a wearable assistance device that has an inner support configured to be attached to a first side of a body interface and a movable outer support slidably coupled to the inner support and configured to connect to a wearable assistance device. A strap attachment is connected to the movable outer support and is configured to be attached to a second side of the body interface that is opposite the first side of the body interface. The movable outer support moves axially relative to the inner support from an unloaded position to a loaded position upon application of a load from the wearable assistance device.

A lightweight ballistic armor system comprising at least one metal strike face plate, a laminate composite backing material secured to the at least one metal strike face plate and an optional air space provided between the metal strike face plate and the laminate composite backing material. The metal strike face plate or plates has a predetermined defined thickness and has a plurality of slotted holes set at an angle relative to the vertical orientation or axis of the metal strike face plate, or which are straight. The plurality of slotted holes is sufficiently small to prevent the passage of a projectile or fragment therethrough. The laminate composite backing material comprises at least one material selected from an aramid fiber material, S-glass, E-glass, polypropylene and UHMWPE, and is provided in combination with a polymer-based resin material. The optional air space provided between the metal strike face plate and the composite backing material has a depth in the range between 0-12 inches.

A lightweight ballistic armor system comprising at least one metal strike face plate, a laminate composite backing material secured to the at least one metal strike face plate and an optional air space provided between the metal strike face plate and the laminate composite backing material. The metal strike face plate or plates has a predetermined defined thickness and has a plurality of slotted holes set at an angle relative to the vertical orientation or axis of the metal strike face plate, or which are straight. The plurality of slotted holes is sufficiently small to prevent the passage of a projectile or fragment therethrough. The laminate composite backing material comprises at least one material selected from an aramid fiber material, S-glass, E-glass, polypropylene and UHMWPE, and is provided in combination with a polymer-based resin material. The optional air space provided between the metal strike face plate and the composite backing material has a depth in the range between 0-12 inches.

A system for sensing and assessing blast events may include a sensing device configured for directly or indirectly securing to a user. The sensing device may include a kinematics sensor configured for sensing at least one of an acceleration and a velocity associated with an event and for generating kinematic signal data based on the event. The sensing device may also include a computer-readable storage medium having instructions stored thereon for receiving the kinematic signal data from the kinematic sensor and storing the kinematic signal data and a processor for processing the instructions to capture the kinematic signal data. The system may also include a computing device configured for analyzing the kinematic signal data to classify the event as a blast event or not a blast event. A method of assessing a blast event using the sensing system may also be provided.

One embodiment of the present invention relates to a releasable flexible coupling system comprising a base, a coupling member, and a sewn member. The coupling member is fixably coupled to the base across the widthwise dimension on opposite sides of the lengthwise dimension forming a recess between the base and the coupling member. The sewn member comprises a strap, a folded region, and a primary stitch. The strap includes a body and a lengthwise end. The folded region is disposed on the lengthwise end of the strap and includes a portion that overlaps the body. The primary stitch extends through both the folded region and the body of the strap. An optional stiffener may be disposed between the lengthwise end of the strap and the folded region. The primary stitch will also extend through the stiffener if present.

A safety guard for an ammunition cartridge (cartridge) of a conductive energy weapon (CEW) includes a body having a first electrical contact on a first side of the body and a second electrical contact on a second side of the body opposite the first side of the body. The first and second electrical contacts are in electrical communication with each other through the body. The first and second electrical contacts are configured to contact a first electrode of the cartridge and a second electrode of the cartridge, respectively, when the body is placed over the cartridge. The safety guard is configured to prevent the cartridge from firing when a firing input, such as a trigger pull, is received by the CEW from a user. In implementations the body includes at least one clip having a projection configured to be inserted in a corresponding depression of the cartridge of the CEW.

A safety guard for an ammunition cartridge (cartridge) of a conductive energy weapon (CEW) includes a body having a first electrical contact on a first side of the body and a second electrical contact on a second side of the body opposite the first side of the body. The first and second electrical contacts are in electrical communication with each other through the body. The first and second electrical contacts are configured to contact a first electrode of the cartridge and a second electrode of the cartridge, respectively, when the body is placed over the cartridge. The safety guard is configured to prevent the cartridge from firing when a firing input, such as a trigger pull, is received by the CEW from a user. In implementations the body includes at least one clip having a projection configured to be inserted in a corresponding depression of the cartridge of the CEW.

An apparatus for an armor system includes a housing case, an interior ballistic panel, a frame, a power source, and a control unit. The housing case includes a top shell and a bottom shell, where the top shell is removably secured to the bottom shell, forming a cavity. The interior ballistic panel is removably arranged within the cavity between the top shell and the bottom shell. The frame is arranged within the cavity between the top shell and the interior ballistic panel, the frame including a compartment. The power source is arranged within the compartment of the frame, and the control unit is communicatively connected to the power source to manage operation of the power source.

A load carrying device to be worn on a user's limb is described. The load carrying device has a distal cuff, a proximal cuff, and several elongated compression members. The ends of the elongated compression members removably attach to the distal and proximal cuffs, and are designed to compress the limb's soft tissue and stabilize the bone. The alternative of compression and relief zones captures lost motion between the limb and the device when the device is worn on the user's limb. The load carrying device can be used in conjunction with a load distribution system.

A body protection system comprising multiple protective assemblies that permits adjustability of the multiple assemblies in respect to one another thereby permitting a complete body protection system that is usable across different size personnel. The multiple protective assemblies may be separately adjusted permitting a one-size-fits-most capability for the different sized personnel. The body protection system permits reuse among different sized people thereby reducing overall costs associated with protecting members of law enforcement, military or other organizations. The body protection system may include a unique adjustable neck protectors that provides enhanced protection for the neck area. The various multiple protective assemblies may suspend directly or indirectly from the shoulder pad assemblies providing a common comprehensive suspension system for a wearer.