Systems and methods are disclosed for capturing and displaying real-time images of the environment in front of a user. In one implementation, a casing for a mobile device having an upward facing display surface and an opposing lower surface is provided. The casing may include a housing and image sensor having at least one optical axis configured to be oriented at a fixed obtuse angle with respect to the lower surface when the mobile device is retained by the housing. The image sensor may be oriented such that when the housing is held by a walking user at an acute angle with respect to a plane on which the user walks, the at least one optical axis generally faces in a walking direction of the user. The casing may further include circuitry for conveying from the at least one image sensor, image data for real-time display on the display surface.

Systems and methods are disclosed for capturing and displaying real-time images of the environment in front of a user. In one implementation, a casing for a mobile device having an upward facing display surface and an opposing lower surface is provided. The casing may include a housing and image sensor having at least one optical axis configured to be oriented at a fixed obtuse angle with respect to the lower surface when the mobile device is retained by the housing. The image sensor may be oriented such that when the housing is held by a walking user at an acute angle with respect to a plane on which the user walks, the at least one optical axis generally faces in a walking direction of the user. The casing may further include circuitry for conveying from the at least one image sensor, image data for real-time display on the display surface.

Systems and methods are provided for acquiring and analyzing vehicle operation data in conjunction with traffic light information to manage traffic and avoid collisions. A traffic management system determines whether a vehicle is likely to be involved in a collision, based on at least vehicle operation data and the status of traffic lights. If it is determined that a vehicle is likely to be involved in a collision, the traffic management system may issue a notification or warning to the vehicle, e.g., instructing the vehicle to increase or decrease its rate of acceleration, and/or apply its brakes. Where the vehicle does not respond to the notification or warning, the traffic management system may take control of the vehicle, and notify and warn other vehicles and/or systems of its actions. Where the vehicle responds to the notification or warning, the traffic management system may calculate and recommend an insurance benefit.

A method according to the present invention includes calculating, based on a reported position of a vehicle, a probability that an actual position of the vehicle is within a region of interest. The method further includes determining whether a threat of a collision exists between the vehicle and an object based on the probability that the actual position of the vehicle is within the region of interest and a reported position of the object. The method further includes generating an alert if it is determined a threat of a collision exists between the vehicle and the object.

Systems and methods are disclosed for capturing and displaying real-time images of the environment in front of a user. In one implementation, a casing for a mobile device having an upward facing display surface and an opposing lower surface is provided. The casing may include a housing and image sensor having at least one optical axis configured to be oriented at a fixed obtuse angle with respect to the lower surface when the mobile device is retained by the housing. The image sensor may be oriented such that when the housing is held by a walking user at an acute angle with respect to a plane on which the user walks, the at least one optical axis generally faces in a walking direction of the user. The casing may further include circuitry for conveying from the at least one image sensor, image data for real-time display on the display surface.

Systems and methods are disclosed for capturing and displaying real-time images of the environment in front of a user. In one implementation, a casing for a mobile device having an upward facing display surface and an opposing lower surface is provided. The casing may include a housing and image sensor having at least one optical axis configured to be oriented at a fixed obtuse angle with respect to the lower surface when the mobile device is retained by the housing. The image sensor may be oriented such that when the housing is held by a walking user at an acute angle with respect to a plane on which the user walks, the at least one optical axis generally faces in a walking direction of the user. The casing may further include circuitry for conveying from the at least one image sensor, image data for real-time display on the display surface.

A display device for a vehicle includes a surrounding environment recognition unit and a display unit. The display unit displays an own-vehicle icon and line icons on right and left sides of the own-vehicle icon. The line icons correspond to the lane markers of an own-vehicle-traveling lane, and are displayed, with a clearance between them narrowing as is farther away from the own-vehicle icon. The own-vehicle icon is on fixed display. The line icons are on movable display in a lateral direction of a display area, in an opposite direction to a direction of movement of the own vehicle in a direction of a lane width of the own-vehicle-traveling lane.

An assembly for monitoring an area is provided. The assembly can include two or more cameras sensitive to radiation of distinct wavelength ranges. The fields of view of the cameras can be substantially co-registered at the area to be monitored. The assembly can include a computer system which can process the image data to monitor the area. The computer system can be configured to identify relevant objects present in the area, update tracking information for the relevant objects, and evaluate whether an alert condition is present using the tracking information.

Input devices having a thin profile and good comfort and feel are disclosed. In embodiments, an input device includes a sensor layer configured to effectuate a key press upon application of an activation force, and a collapsible layer coupled to the sensor layer. The collapsible layer may be configured to collapse in response to a collapsing force that is substantially equal to the activation force. When the collapsible layer collapses, the sensor layer may simultaneously effectuate the key press in response to application of the collapsing force.

Systems and methods are disclosed for capturing and displaying real-time images of the environment in front of a user. In one implementation, a casing for a mobile device having an upward facing display surface and an opposing lower surface is provided. The casing may include a housing and image sensor having at least one optical axis configured to be oriented at a fixed obtuse angle with respect to the lower surface when the mobile device is retained by the housing. The image sensor may be oriented such that when the housing is held by a walking user at an acute angle with respect to a plane on which the user walks, the at least one optical axis generally faces in a walking direction of the user. The casing may further include circuitry for conveying from the at least one image sensor, image data for real-time display on the display surface.