The present disclosure describes a system and method designed to protect the contents of a region or space within a facility (e.g., building, home, vehicle, outdoor space, etc.). The system is configured to identify an area to be protected (e.g., nightstand, medicine cabinet, safe), monitor surroundings, and manage and deploy response(s) to threats to the region or space under protection. The system may also be configured to provide incremental warnings, interventions, or countermeasures to deter people or animals from accessing the Protected Space.

A wireless, proximity-based security system for securing or tracking a valuable object. The system includes a base station and a plurality of security fobs. The security fobs are tracked via an ultra-wideband transceiver relative to an outer perimeter. An administrator fob pairs each of the security fobs with the base station. An audible alarm emits from base and/or the fobs when the location of the security fob is detected to be beyond the outer perimeter. A haptic alarm emits from fob when the location of the security fob is detected to be beyond a sub-perimeter.

An electric barrier to limit crossing of a border or perimeter. It consists of rows of vertical electrodes installed underground or above ground. It has two modes of operation. In an RF heating mode a generator powers electric fields to heat the ground in a pattern around the fence. A temperature may be reached which makes human occupation of tunnels untenable. Humans may also be subjected to RF radiation effects, especially if the frequency is tuned to a resonant frequency of tunnel cavities. Detection of a resonant frequency by suitable instrumentation may also indicate the presence of tunnels. In another mode occupants of a tunnel may be subjected to shock from an electric pulse, without heating, depending on small amounts of moisture to transmit the pulse through soil to the tunnel.

A portable electric fence kit for the erection of a temporary electric fence comprising: a primary fence section which is portable and non-electrified having two or more poles, a secondary fence section having two or more insulated poles secured to the poles of the primary fence section and having the ability to be electrified using a plurality of wires spanning the distance between the insulated poles, a plurality of wires spanning the distance between the insulated poles, system controls operationally associated with the fence sections, a power source operationally associated with the fence sections and the system controls, the power source providing electricity to the secondary fence sections and a coupling means which allows for one section of the fence kit and its wires to be coupled to another section of the fence kit and its wires.

Methods, systems, and apparatus, including computer programs encoded on storage devices, for monitoring, security, and surveillance of a property. In one aspect, a system includes multiple robotic devices, multiple sensors, wherein the multiple sensors includes a first sensor, multiple charging stations, and a monitor control unit. The monitor control unit may include a network interface, one or more processors, and one or more storage devices that include instructions to cause the one or more processors to perform operations. The operations may include receiving data from the first sensor that is indicative of an alarm event, accessing information describing the capabilities of the each of the robotic devices, selecting a subset of robotic devices from the multiple robotic devices, and transmitting a command to each robotic device in the subset of robotic devices that instructs each respective robotic device to deploy to the location of the first sensor.

Disclosed is a power supply provides electric powerwith appropriate voltage and amperage for the planned useto supportsthat can be shielded electrical materialswherefrom flexible, charged conductors exit. These may be disposed exiting from lower supports in the ground, or from the supports of one or both sides of lateral and/or upper structures delimiting the entry/exit locations of the restricted access area and having dimensions and shapes most suitable to the specific use intended. This system renders it possible to prevent pedestrian and/or vehicles in general without a cabin from accessing the area, with access allowed to vehicles with a cabin, including convertible vehicles with a closed hood, although simultaneously or immediately before or after the passage of authorized vehicle(s), preventing intrusions, invasions, assaults etc. to the restricted access area.

An alarm system for protecting an occupant of an outdoor tent, warning the occupant of an approaching animal and serving as a defensive weapon against the animal. The alarm system comprises a plurality of individual alarms for positioning about a perimeter of the outdoor tent, each alarm being situated in a stand or a section of ground near the outdoor tent. Each individual alarm comprises a support post onto which a detector component is situated, said detector component including a motion sensor element, a sound speaker for playing a recorded alarm upon activation, a battery powered light element, and an on-off switch that connects to a remote control unit for the alarm.

A remotely activatable custody control belt is worn by prisoners, inmates, and detainees. The remotely activatable custody control belt deters whomever is wearing the remotely activatable custody control belt from aggressive or hostile actions against law enforcement officers, corrections officers, other prisoners, or bystanders. The remotely activatable custody control belt includes a belt, a belt fastener, a fastener receiver, at least one warning-signal device, a non-lethal electroshock device, a wireless transceiver, and a first microcontroller. The belt is fastened around the prisoner through the belt fastener and the fastener receiver. The at least one warning-signal device alerts the wearer to comply with verbal commands or of an imminent emission from the non-lethal electroshock device. The corrections officer alerts the wearer through a signal from a remote-control device. The signal is received through the wireless transceiver and processed through the first microcontroller.

Methods, systems, and apparatus, including computer programs encoded on storage devices, for monitoring, security, and surveillance of a property. In one aspect, a system includes multiple robotic devices, multiple sensors, wherein the multiple sensors includes a first sensor, multiple charging stations, and a monitor control unit. The monitor control unit may include a network interface, one or more processors, and one or more storage devices that include instructions to cause the one or more processors to perform operations. The operations may include receiving data from the first sensor that is indicative of an alarm event, accessing information describing the capabilities of the each of the robotic devices, selecting a subset of robotic devices from the multiple robotic devices, and transmitting a command to each robotic device in the subset of robotic devices that instructs each respective robotic device to deploy to the location of the first sensor.

Methods and systems are provided for responding to an attacker including a shooter who opens fire at a site where people are gathered, including identifying, neutralizing, and restraining the attacker. A system may include a central control unit configured to perform a series of steps including: receiving an image including the origin of the gunfire and responsively acquiring identifying features of a shooter associated with the gunfire; subsequently tracking a current location of the shooter according to the identifying features; releasing an autonomous, unmanned aerial vehicle (UAV) to engage the shooter; guiding the flight of the UAV towards the current location of the shooter; and neutralizing the shooter by operating a shooter incapacitating mechanism of the UAV.