A collar sized to be worn around the neck of a human subject has at least one member that defines an arc of less than 360 and greater than 180 having a diameter, a first compressor at a first end of the arc, a second compressor at a second end of the arc and a bend angle sensor. The collar is adapted to exert an inwardly-directed force on the first and second compressors when worn. The bend angle sensor is configured and positioned to detect a bend angle of the collar, wherein the bend angle correlates to the inwardly-directed force on the first and second compressors when worn.

A collar sized to be worn around the neck of a human subject has at least one member that defines an arc of less than 360 and greater than 180 having a diameter, a first compressor at a first end of the arc, a second compressor at a second end of the arc and a bend angle sensor. The collar is adapted to exert an inwardly-directed force on the first and second compressors when worn. The bend angle sensor is configured and positioned to detect a bend angle of the collar, wherein the bend angle correlates to the inwardly-directed force on the first and second compressors when worn.

Disclosed are a method, system, and apparatus of s body safety device with visual sensing and haptic response using artificial intelligence. In one embodiment, a body worn safety device includes a visual sensor integrated into a tactical gear and a haptic feedback device integrated in the tactical gear. The haptic feedback device vibrates when the visual sensor detects an ambient threat to a wearer of the tactical gear. The haptic feedback device may detect the ambient threat using an artificial intelligence based threat detection model. The visual sensor may be part of an array of visual sensors around a torso of the wearer such that ambient threats around the wearer are captured through the artificial intelligence based threat detection model. A battery unit may be detachable from the tactical gear.

Disclosed are a method, system, and apparatus of s body safety device with visual sensing and haptic response using artificial intelligence. In one embodiment, a body worn safety device includes a visual sensor integrated into a tactical gear and a haptic feedback device integrated in the tactical gear. The haptic feedback device vibrates when the visual sensor detects an ambient threat to a wearer of the tactical gear. The haptic feedback device may detect the ambient threat using an artificial intelligence based threat detection model. The visual sensor may be part of an array of visual sensors around a torso of the wearer such that ambient threats around the wearer are captured through the artificial intelligence based threat detection model. A battery unit may be detachable from the tactical gear.

Disclosed are a method, system, and apparatus of personal protective equipment having a responsive device to vibrate when an unmanned aerial vehicle detects an ambient threat using artificial intelligence. In one embodiment, a personal protective equipment includes a drone control apparatus integrated into a chest area of a tactical gear and a responsive device integrated in the tactical gear. The responsive device notifies a wearer of the tactical gear when an unmanned aerial vehicle detects an ambient threat to the wearer. The unmanned aerial vehicle is communicatively coupled with the tactical gear. The responsive device detects the ambient threat using an artificial intelligence based threat detection model. The responsive device may notify a wearer haptically if it is a haptic sensor, auditorily if it is an audio sensor, and/or visually if it is a LED/light based sensor.

Disclosed are a method, system, and apparatus of personal protective equipment having a responsive device to vibrate when an unmanned aerial vehicle detects an ambient threat using artificial intelligence. In one embodiment, a personal protective equipment includes a drone control apparatus integrated into a chest area of a tactical gear and a responsive device integrated in the tactical gear. The responsive device notifies a wearer of the tactical gear when an unmanned aerial vehicle detects an ambient threat to the wearer. The unmanned aerial vehicle is communicatively coupled with the tactical gear. The responsive device detects the ambient threat using an artificial intelligence based threat detection model. The responsive device may notify a wearer haptically if it is a haptic sensor, auditorily if it is an audio sensor, and/or visually if it is a LED/light based sensor.

Disclosed are a method, system, and apparatus of s body safety device with visual sensing and haptic response using artificial intelligence. In one embodiment, a body worn safety device includes a visual sensor integrated into a tactical gear and a haptic feedback device integrated in the tactical gear. The haptic feedback device vibrates when the visual sensor detects an ambient threat to a wearer of the tactical gear. The haptic feedback device may detect the ambient threat using an artificial intelligence based threat detection model. The visual sensor may be part of an array of visual sensors around a torso of the wearer such that ambient threats around the wearer are captured through the artificial intelligence based threat detection model. A battery unit may be detachable from the tactical gear.

Disclosed are a method, system, and apparatus of s body safety device with visual sensing and haptic response using artificial intelligence. In one embodiment, a body worn safety device includes a visual sensor integrated into a tactical gear and a haptic feedback device integrated in the tactical gear. The haptic feedback device vibrates when the visual sensor detects an ambient threat to a wearer of the tactical gear. The haptic feedback device may detect the ambient threat using an artificial intelligence based threat detection model. The visual sensor may be part of an array of visual sensors around a torso of the wearer such that ambient threats around the wearer are captured through the artificial intelligence based threat detection model. A battery unit may be detachable from the tactical gear.

Disclosed are a method, system, and apparatus of a body safety device integrated with real-time language translation capabilities using artificial intelligence, and associated methods of operation and use. In one embodiment, a body worn safety device includes a body-worn camera to record audio and video of an interaction between a first responder and an individual in a field of view; a language translator module electronically coupled with the body-worn camera to enable the first responder to bi-directionally communicate with the individual using any language other than a primary language spoken by the first responder; an activate button in a center front chest area of the first responder to activate the language translator module when pressed, and to enable the first responder to maintain their eyes and attention on the individual while real time translation is occurring; and a speaker and microphone system providing auditory feedback and two-way communication.

Disclosed are a method, system, and apparatus of a body safety device integrated with real-time language translation capabilities using artificial intelligence, and associated methods of operation and use. In one embodiment, a body worn safety device includes a body-worn camera to record audio and video of an interaction between a first responder and an individual in a field of view; a language translator module electronically coupled with the body-worn camera to enable the first responder to bi-directionally communicate with the individual using any language other than a primary language spoken by the first responder; an activate button in a center front chest area of the first responder to activate the language translator module when pressed, and to enable the first responder to maintain their eyes and attention on the individual while real time translation is occurring; and a speaker and microphone system providing auditory feedback and two-way communication.