Abstract: An apparatus for helping to protect occupants of a vehicle in the event of a collision includes a deployable restraint having a stored, predeployment condition in a vehicle floor. The restraint is deployable from the floor to restrain the feet and/or lower legs of an occupant from swinging forward and upward in response to a vehicle collision. In one configuration, the deployable restraint can include a module comprising an airbag and an inflator for inflating and deploying the airbag. The module can include a door that opens in response to deployment of the airbag and that serves as a reaction surface for the airbag. In another configuration, the deployable restraint can include a restraining panel configured to move to a deployed position extending above the vehicle floor adjacent the occupants lower leg and feet.

Abstract: An apparatus for helping to protect occupants of a vehicle in the event of a collision includes a deployable restraint having a stored, predeployment condition in a vehicle floor. The restraint is deployable from the floor to restrain the feet and/or lower legs of an occupant from swinging forward and upward in response to a vehicle collision. In one configuration, the deployable restraint can include a module comprising an airbag and an inflator for inflating and deploying the airbag. The module can include a door that opens in response to deployment of the airbag and that serves as a reaction surface for the airbag. In another configuration, the deployable restraint can include a restraining panel configured to move to a deployed position extending above the vehicle floor adjacent the occupants lower leg and feet.

Abstract: In one embodiment, a system and method is provided for optimizing the total time taken for cleaning an area by a cleaning robot, which is the sum of the cleaning time and the time taken for the robot to re-charge its battery mid-cleaning when the area is too large to clean on a single charge. In one embodiment, the remaining area to be cleaned is determined, and the mid-cleaning re-charge time is reduced to the amount of charge needed to clean the remaining area, plus a buffer. Hence, a reduction in mid-cleaning charging time results in reduced total time taken to clean a given space.

Abstract: A visible wearable device to be worn by a user having one or more housings configured to be worn by the user, one or more cameras disposed in the housing and configured to record one or more visual scenes and output one or more visual data files, one or more power sources for powering the one or more cameras, and one or more transmitters transmitting the one or more visual data files to a location remote from the user. The stored data to be released only in response to an order of a court of competent jurisdiction.

Abstract: In one embodiment, a system and method is provided for optimizing the total time taken for cleaning an area by a cleaning robot, which is the sum of the cleaning time and the time taken for the robot to re-charge its battery mid-cleaning when the area is too large to clean on a single charge. In one embodiment, the remaining area to be cleaned is determined, and the mid-cleaning re-charge time is reduced to the amount of charge needed to clean the remaining area, plus a buffer. Hence, a reduction in mid-cleaning charging time results in reduced total time taken to clean a given space.