A glass break apparatus including an attachment mechanism comprising an attachment region configured to attach to an end of a light-emitting device and a receptacle coupled to the attachment region. The glass break apparatus also including an elongated glass punch retained at least partially within the receptacle, the glass punch having a first end and a second end, the glass punch configured to move between a retracted position within the interior of the receptacle and an extended position due to impact with a surface of glass, the first end of the glass punch extending beyond a plane of the attachment region while in the extended position.

Systems and methods are provided for configuring a sound system in a confined passageway. Techniques include installing a plurality of nodes with defined identities at intervals along a confined passageway. Each node includes a microphone and two loudspeakers directed in substantially opposite directions along the confined passageway. Communication is established between each of the nodes and a control system computer. In a first set of steps that is repeated, relative positions of all nodes communicating with the control system computer may be determined. In a second set of steps that is repeated, a distance may be computed for each pair of adjacent nodes of the plurality of nodes. The technique may then include storing the relative positions of all nodes and the computed distance between all adjacent nodes in the control system computer.

A sheath attaches to MOLLE webbing using one large hook that secures underneath the top of MOLLE webbing and two or more hooks that attach over the bottom of MOLLE webbing.

A sheath attaches to MOLLE webbing using one large hook that secures underneath the top of MOLLE webbing and two or more hooks that attach over the bottom of MOLLE webbing.

A safety system can include: at least one wearable device configured to communicate with a central hub of a facility; and the central hub programmed to determine a location of the at least one wearable device within the facility, and to provide emergency instructions to the at least one wearable device based upon the location.

A safety system can include: at least one wearable device configured to communicate with a central hub of a facility; and the central hub programmed to determine a location of the at least one wearable device within the facility, and to provide emergency instructions to the at least one wearable device based upon the location.

Embodiments in the present description are provided for a lever adapter device for use in lifting a vehicle or other heavy objects. Additional embodiments in the present description are provided for a Bi-pod rescue strut system for use in stabilizing a vehicle or other object. The lever adapter device includes stabilizing feet and one or more support legs. The lever adapter device further includes a hinge disposed at an end of each support leg. Each support leg is extendable and retractable towards or away from the other support leg. The lever adapter device further includes a jack attachment piece and one or more hinges, which are also connected to the one or more support legs. The jack attachment piece is configured to be removably connected to a jack, such as a HI-LIFT jack, or to other lifting devices to assist in lifting the vehicle or the other heavy objects.

An impact tool includes a core and a plurality of projections. The core is formed of a first material that has a first specific gravity and each projection is formed of a second material that has a second specific gravity. The plurality of projections is configured on the core such that at least two projections intersect a first hypothetical plane disposed on the first side of the core and at least two projections intersect a second hypothetical plane disposed on the second side of the core and that is opposably facing the first side. Each of the first and second hypothetical planes is disposed a distance from the central lengthwise axis of the core that is greater than the radius of the core and less than the sum of the radius of the core and the length of a projection.

An impact tool includes a core and a plurality of projections. The core is formed of a first material that has a first specific gravity and each projection is formed of a second material that has a second specific gravity. The plurality of projections is configured on the core such that at least two projections intersect a first hypothetical plane disposed on the first side of the core and at least two projections intersect a second hypothetical plane disposed on the second side of the core and that is opposably facing the first side. Each of the first and second hypothetical planes is disposed a distance from the central lengthwise axis of the core that is greater than the radius of the core and less than the sum of the radius of the core and the length of a projection.

Systems and methods for unified facility communications systems with device location are provided. One system embodiment comprises: a master unit and a plurality of remote antenna units defining a DAS. The master unit communicates with a base station to receive a base station downlink RF signal and to transmit a base station uplink RF signal. The remote antenna units radiate a remote downlink RF signal into a coverage area and receive a remote uplink RF signal from the coverage area. The master unit comprises uplink and downlink circuitry to transport user device communications, and a facility supervisory module to process facility device traffic associated with wireless facility assets in the coverage area. Facility device traffic is transported via the remote antenna units. Within the master unit, user device communications is routed via the uplink and downlink circuitry and facility device traffic is routed via the facility supervisory module.