Abstract: An assisted perception (AP) module comprises an attachment mechanism to attach the AP module to a helmet, and a housing to integrate modular components of the AP module. The housing comprises a front portion and side portion, the front portion located over an eye of the user. The modular components include sensors to collect information about an environment as sensor data, and processors located in the side portion. The processors execute one or more assisted perception engines that process the sensor data from the sensors into enhanced characterization data. Output devices electronically communicate the enhanced characterization data to a user, wherein at least one of the output devices protrudes from the front portion of the housing in front of an eye of the user.

Abstract: A retrofittable mount system for a mask having a mask window comprises a sensor removably mounted to the mask to collect information about an environment as sensor data, wherein the sensor is removably mounted to the mask with a first mount mechanism that does not penetrate the mask window. A processor is coupled to the sensor, wherein the processor executes one or more cognitive enhancement engines to process the sensor data into enhanced characterization data. An output device is removably mounted to the mask with a second mount mechanism without penetrating the mask window. The output device receives the enhanced characterization data from the processor and communicates the enhanced characterization data to a mask wearer, such that the enhanced characterization data is integrated into natural senses of the wearer and optimized for the performance of a specific task of the wearer to reduce the cognitive load of the wearer.

Abstract: A platform comprises one or more sensors that collect information about an environment as sensor data. A processor is in communication with the one or more sensors, wherein the processor executes enhancement engines that processes the sensor data into enhanced characterization data having a reduced amount of data compared to the sensor data. An output device electronically communicate the enhanced characterization data to a user, wherein the sensor and the output device comprise an assisted perception module worn by the user during an incident. A command interface device remote from the user to enable a person of authority to manage the incident and the user by receiving and displaying the enhanced characterization data, and by transmitting data and commands back to the assisted perception module.

Abstract: A cognitive load reducing platform comprises one or more sensors that collect information about an environment as sensor data. A processor is in communication with the one or more sensors, wherein the processor executes a cognitive enhancement engines that processes the sensor data into enhanced characterization data having a reduced amount of data compared to the sensor data. An output device electronically communicate the enhanced characterization data to a user such that the enhanced characterization data reduces the cognitive load of the user, wherein the sensor and the output device comprise an assisted perception module worn by the user during an incident. A command interface device remote from the user to enable a person of authority to manage the incident and the user by receiving and displaying the enhanced characterization data, and by transmitting data and commands back to the assisted perception module.

Abstract: An assisted perception (AP) module comprises an attachment mechanism to attach the AP module to a helmet, and a housing to integrate modular components of the AP module. The housing comprises a front portion and side portion, the front portion located over an eye of the user. The modular components include sensors to collect information about an environment as sensor data, and processors located in the side portion. The processors execute one or more assisted perception engines that process the sensor data from the sensors into enhanced characterization data. Output devices electronically communicate the enhanced characterization data to a user, wherein at least one of the output devices protrudes from the front portion of the housing in front of an eye of the user.

Abstract: A platform comprises one or more sensors that collect information about an environment as sensor data. A processor is in communication with the one or more sensors, wherein the processor executes enhancement engines that processes the sensor data into enhanced characterization data having a reduced amount of data compared to the sensor data. An output device electronically communicate the enhanced characterization data to a user, wherein the sensor and the output device comprise an assisted perception module worn by the user during an incident. A command interface device remote from the user to enable a person of authority to manage the incident and the user by receiving and displaying the enhanced characterization data, and by transmitting data and commands back to the assisted perception module.

Abstract: A retrofittable mount system for a mask having a mask window comprises a sensor removably mounted to the mask to collect information about an environment as sensor data, wherein the sensor is removably mounted to the mask with a first mount mechanism that does not penetrate the mask window. A processor is coupled to the sensor, wherein the processor executes one or more cognitive enhancement engines to process the sensor data into enhanced characterization data. An output device is removably mounted to the mask with a second mount mechanism without penetrating the mask window. The output device receives the enhanced characterization data from the processor and communicates the enhanced characterization data to a mask wearer, such that the enhanced characterization data is integrated into natural senses of the wearer and optimized for the performance of a specific task of the wearer to reduce the cognitive load of the wearer.

Abstract: A cognitive load reducing platform comprises one or more sensors that collect information about an environment as sensor data. A processor is in communication with the one or more sensors, wherein the processor executes a cognitive enhancement engines that processes the sensor data into enhanced characterization data having a reduced amount of data compared to the sensor data. An output device electronically communicate the enhanced characterization data to a user such that the enhanced characterization data reduces the cognitive load of the user, wherein the sensor and the output device comprise an assisted perception module worn by the user during an incident. A command interface device remote from the user to enable a person of authority to manage the incident and the user by receiving and displaying the enhanced characterization data, and by transmitting data and commands back to the assisted perception module.

Abstract: A cognitive load reducing platform comprises one or more sensors that collect information about an environment as sensor data. A processor is in communication with the one or more sensors, wherein the processor executes a cognitive enhancement engines that processes the sensor data into enhanced characterization data having a reduced amount of data compared to the sensor data. An output device electronically communicate the enhanced characterization data to a user such that the enhanced characterization data reduces the cognitive load of the user, wherein the sensor and the output device comprise an assisted perception module worn by the user during an incident. A command interface device remote from the user to enable a person of authority to manage the incident and the user by receiving and displaying the enhanced characterization data, and by transmitting data and commands back to the assisted perception module.