Systems and methods are disclosed for correcting for artificial deformations in anatomical modeling. One method includes obtaining an anatomic model; obtaining information indicating a presence of an artificial deformation of the anatomic model; identifying a portion of the anatomic model associated with the artificial deformation; estimating a non-deformed local area corresponding to the portion of the anatomic model; and modifying the portion of the anatomic model associated with the artificial deformation, based on the estimated non-deformed local area.

Systems and methods are disclosed for correcting for artificial deformations in anatomical modeling. One method includes obtaining an anatomic model; obtaining information indicating a presence of an artificial deformation of the anatomic model; identifying a portion of the anatomic model associated with the artificial deformation; estimating a non-deformed local area corresponding to the portion of the anatomic model; and modifying the portion of the anatomic model associated with the artificial deformation, based on the estimated non-deformed local area.

A vehicle cabin simulator module provides flexible reconfiguration of transducer locations for evaluating acoustic performance in a vehicle design at a prototyping stage. A frame lattice defines a plurality of cavities around an interior space. A plurality of transducer assemblies are mounted in selected ones of the cavities, each assembly having a faceplate mounting a transducer for acoustic coupling with the interior space. Blank panels are mounted in other selected cavities to shutter the respective cavities. A covering liner is applied to an inner side of the frame lattice. Wiring is provided to interconnect the transducers with a signal processor. The frame lattice further defines a door section radially movable for enclosing the interior space at a closed position and for providing ingress and egress to the interior space at an open position.

A vehicle cabin simulator module provides flexible reconfiguration of transducer locations for evaluating acoustic performance in a vehicle design at a prototyping stage. A frame lattice defines a plurality of cavities around an interior space. A plurality of transducer assemblies are mounted in selected ones of the cavities, each assembly having a faceplate mounting a transducer for acoustic coupling with the interior space. Blank panels are mounted in other selected cavities to shutter the respective cavities. A covering liner is applied to an inner side of the frame lattice. Wiring is provided to interconnect the transducers with a signal processor. The frame lattice further defines a door section radially movable for enclosing the interior space at a closed position and for providing ingress and egress to the interior space at an open position.

A firefighting training system for use in training firefighters in the extinguishment of a simulated fire. The system includes a burn area disposed in a pit structure. The burn area includes a multitude of individual burn zones such that each of the individual burn zones can support a fire there within. The system further includes a control system to control the fire in each individual burn zone and a multitude of thermal imaging devices positioned to monitor the multitude of individual burn zones and to report the temperature of each individual burn zone to the control system.

A firefighting training system for use in training firefighters in the extinguishment of a simulated fire. The system includes a burn area disposed in a pit structure. The burn area includes a multitude of individual burn zones such that each of the individual burn zones can support a fire there within. The system further includes a control system to control the fire in each individual burn zone and a multitude of thermal imaging devices positioned to monitor the multitude of individual burn zones and to report the temperature of each individual burn zone to the control system.

A fire-fighting virtual reality simulator allows the trainee to move in a virtual space in various complex virtual fire disaster situations and perform a suppression of a virtual fire and a confrontation training. An experience interactive simulator for providing a trainee with a floor movement that may occur in a fire disaster situation so that the trainee wearing HMD in a virtual fire-fighting training has the same sense of feeling as that in an actual fire-fighting training is provided. For the realistic content experience, a physical floor movement, such as tilting, falling, and shaking of the floor is reproduced using a base motion, thereby providing a floor movement that enables a sense of feeling similar to a fire disaster situation.

A fire-fighting virtual reality simulator allows the trainee to move in a virtual space in various complex virtual fire disaster situations and perform a suppression of a virtual fire and a confrontation training. An experience interactive simulator for providing a trainee with a floor movement that may occur in a fire disaster situation so that the trainee wearing HMD in a virtual fire-fighting training has the same sense of feeling as that in an actual fire-fighting training is provided. For the realistic content experience, a physical floor movement, such as tilting, falling, and shaking of the floor is reproduced using a base motion, thereby providing a floor movement that enables a sense of feeling similar to a fire disaster situation.

Magnetic sensor synchronization techniques for pose tracking in artificial reality systems include managing and sending, by one or more primary magnetic sensors, a wireless synchronization signal to other magnetic sensors to trigger sensing sampling. The primary magnetic sensor may generate and send sensor data to a wireless data hub that operates as a sensor data collector and transmits data for pose tracking in the system. Each of the other (non-primary) magnetic sensors, in response to receiving the wireless synchronization signal, updates its sampling starting clock based on new synchronization timing. Each of the magnetic sensors sends generated sensor data to its corresponding primary sensor or wireless data hub according to a different schedule to avoid conflicts between the various magnetic sensors. The synchronization process may be repeated a number of times if a sensor fails to receive or respond to a synchronization signal.

Interactive software applications designed to assess a combination of behavioral neuro-physiological characteristics of a user to determine an effect a substance is currently having on the user. In some examples the effect of the substance may be assessed to identify a cognitive impairment caused by a substance and determine the type of substance(s) likely causing the impairment. In some examples the effect of the substance may be assessed to determine a recommended dosage and/or a standard impairing dose threshold for a particular substance.