Systems and methods provide technology for wayfinding assistance for visually-impaired passengers, including short-range transmitters distributed within a passenger cabin of an aircraft, a transit vehicle or a vessel, each short-range transmitter located proximate to a respective waypoint in the passenger cabin to transmit a signal identifying the respective waypoint in the passenger cabin, and a client application to, responsive to passing within a range of one of the plurality of short-range transmitters, receive a first transmission from the short-range transmitter and emit one or more of a first audible signal or a first haptic signal, based on the first transmission, as wayfinding assistance to a user of the client device. The technology can also include a mid-range transmitter located proximate to a service area in the passenger cabin, to transmit a signal providing at least one of a status of or a location of the service area.

Embodiments are described of an apparatus including a computer to which are coupled a user identification device to identify an authorized user, a transceiver to receive and transmit user data between the computer and one or more user data sources associated with the authorized user, a navigation system, and one or more displays coupled to the computer. The computer constructs a timeline for the authorized user based on the user data over a specified time interval, wherein the timeline displays every user event that falls within the specified time interval, and simultaneously display the timeline and a map on one of the one or more displays, wherein the user's current position and the position of at least one user event from the timeline are identified on the map. Other embodiments are disclosed and claimed.

A system for usage guidance using wireless communication includes a receiver configured to wirelessly receive a first signal from a transmitter, and a portable computing device coupled to the receiver and designed and configured to parse the first signal for at least a textual element, extract, from the at least a textual element, a unique transmitter identifier, provide a user identifier, receive a first data record including a first user-specific datum from a first database as a function of the user identifier, receive a second data record including a first item-specific datum from a second database as a function of the unique identifier, and generate a user-specific usage sequence as a function of the first user-specific datum and the first item specific datum. The system includes a user output component coupled to the portable computing device and configured to provide the user-specific usage sequence to the user.

The present invention relates to a haptic pedal (10) for a vehicle (4). The pedal comprises a plurality of piezoelectric actuators (22) operable for providing haptic feedback to a driver through the footrest (18) and sensing means (26) for mapping the area of the footrest in contact with a driver's foot so that haptic feedback is delivered by selective activation of actuators in the mapped area. The invention also comprises a haptic feedback system including the haptic pedal (10) and a controller (6) for receiving an input from the sensing means (26) relating to the area of the footrest in contact with the driver's foot and for delivering an output to selectively activate piezoelectric actuators overlapping the contact area in dependence on a sensed state of the vehicle. The haptic feedback system may be implemented as part of the vehicle's navigation system.

A computer device for use in modifying route navigation with waypoints is provided. The computer device includes at least one processor in communication with at least one memory device. The computer device is in communication with at least one display screen and at least one touchpad. The computer device is programmed to (a) activate an edit mode from a route overview mode, (b) display a list of a plurality of destinations on a display screen, (c) detect a first touching and a first tapping on a touchpad in an area that corresponds to a destination of the plurality of destinations on the list to select the destination, (d) detect a second touching and a second tapping on the touchpad in an area that corresponds to a position in the list, and (e) move the destination to the position in the list.

In an example, a system is described. The system may include a vehicle requiring a balance input to maintain an upright position and a plurality of sensors to determine threats within an environment. Additionally, the system may include a controller to generate a plan in response to the threats and a proprioceptive system to provide feedback to a rider of the vehicle according to the plan.

The present invention relates to a haptic information provision device. The haptic information provision device (100) according to the present invention comprises: a receiver (120) for receiving external notification information; a controller (130) for converting the notification information to a haptic signal; and an operation unit (110) for transferring haptic information to a user according to the haptic signal, wherein the operation unit (110) includes a plurality of operation units (110a-110j), the respective operation units (110a-110j) operating in response to different notification information and thus transferring different haptic information to the user.

System for assisting in driving a bicycle by sending a haptic feedback to a cyclist having means for detecting the current value of a target quantity (q, v); and a memory module configured for supplying an optimal value of the target quantity (q.sub.max; v.sub.max) corresponding to the current spatial position (x) of the bicycle along the predetermined path or corresponding to the current instant (t). A comparator module is configured for determining a quantity representative of the error (e.sub.q; e.sub.v) between said current value of the target quantity (q, v) and said optimal value of the target quantity (q.sub.max; v.sub.max) supplied by the memory module. An actuator is applicable to a portion of the bicycle (100), suitable for generating vibrations. A control module is configured for determining a vibration frequency (f) of the actuator based on the error (e.sub.q; e.sub.v), wherein the said vibration implements the haptic feedback to the cyclist.

A system for providing, to a user, navigation directions to a point of interest. The system includes a device having an output unit configured to output the navigation directions to the point of interest. The device is configured to communicate, to an unmanned vehicle, a point of interest identification. The system also includes the unmanned vehicle having a camera configured to detect image data. The unmanned vehicle is configured to determine whether the point of interest identification is detected from the image data. The unmanned vehicle is also configured to determine a point of interest location when the point of interest identification is detected from the image data. The unmanned vehicle is also configured to determine point of interest navigation data based on the point of interest location. The unmanned vehicle is also configured to communicate, to the device, the point of interest navigation data.

A system for usage guidance using wireless communication includes a receiver configured to wirelessly receive a first signal from a transmitter, and a portable computing device coupled to the receiver and designed and configured to parse the first signal for at least a textual element, extract, from the at least a textual element, a unique transmitter identifier, provide a user identifier, receive a first data record including a first user-specific datum from a first database as a function of the user identifier, receive a second data record including a first item-specific datum from a second database as a function of the unique identifier, and generate a user-specific usage sequence as a function of the first user-specific datum and the first item specific datum. The system includes a user output component coupled to the portable computing device and configured to provide the user-specific usage sequence to the user.