The robotic cane will follow the markings on roads and pavements with hunter green and black colored thermoplastic paint, thereby ensuring the mobility of blind people. It will enable to monitor heath conditions of the individuals, track the locations of the individuals, alert individuals about obstructions along the pathways, and has a voice-activated app to control the functionalities of the cane. This will eliminate the use of expensive tactile paving, thereby, providing simple and cost-effective solution for blind people to navigate both indoor and outdoor environments.

Multipurpose tactile warning panels for use in pedestrian walkways, and in particular tactile warning panels that are designed and built with multifunction/multipurpose capabilities that serve the visually impaired and enable the deployment of smart city technology by integrating tactile warning systems and subsurface enclosures that can withstand pressures of five (5) tons up to and exceeding sixty (60) tons and incorporate small cells, beacons, sensors, Fog Computing, electric energy generation, rechargeable power supplies, wireless M2M communication and a plethora of other smart city technologies.

A method for providing information to a user, preferably including: determining environmental information; determining a set of features based on the information; determining output parameters based on the features; and controlling a sensory output system to generate outputs based on the output parameters. A sensory output device, preferably including a plurality of sensory output actuators. A system for providing information to a user, preferably including one or more: sensory output devices, sensors, and computing systems.

A portable environment sensing device is described which comprises at least one time-of-flight sensor capable of detecting the distances from the time-of-flight sensor to at least two features within the field of view of the time-of-flight sensor simultaneously. The portable environment sensing device further comprises a processing unit capable of converting the at least two measured distances into at least two different distance signals, where each distance signal is correlated with the corresponding measured distance, and an output interface providing the at least two distance signals to a user simultaneously.

The technology disclosed herein includes a navigation system for a visually impaired person. The navigation system may include a plurality of fixtures, a plurality of installations, wherein each installation is electronically connected to a fixture, and an electronic device, the electronic device configured to receive auditory or tactile signals from each installation and produce a signal indicative of a fixture location.

Methods, systems, and products estimate distances to aid a visually impaired user of a mobile device. As the user carries the mobile device, a camera in the mobile device captures images of a walking cane. The images of the walking cane are analyzed to infer a distance between a tip of the walking cane and the mobile device. The distance may then be used by navigational tools to aid the visually impaired user.

A mobility tool for the blind and visually impaired includes a rod and an earpiece. The earpiece is configured to position on an ear of a user so that a first speaker is positioned proximate to an ear canal of the ear. A sensing module is coupled to a lower end of the rod and is configured to detect a temperature hazard, a water hazard, and a traffic hazard. A navigation and communications module is coupled to an upper end of the rod and is operationally coupled to the sensing module and the earpiece. The navigation and communications module comprises a GPS transceiver that is configured to send and receive location coordinates. The sensing module is configured to detect a respective hazard along a route, positioning the first speaker to selectively broadcasting directions for the route and a warning of the respective hazard to the user.

The present device is an object detection device for assisting individuals with visual impairments to detect objects in front of him or her when walking or riding a bike. The device preferably includes an assistive device like a cane and an echolocation device coupled to the walking assistive device. When a user signals for the echolocation device to do so, the echolocation device uses a parametric array to generate a sound beam. If an object is in front of the user, the audible narrow sound beam reflects off of the object creating a strong, clear echo sound beam toward the user's ear. Because the user is preferably trained in echolocation, he or she is able to determine the distance, position, and possibly the type of object.

Processing circuitry provided in a mobile device of a user requiring mobility assistance is programmed to: request multimodal personal transportation assistance from a pool of candidate companions, receive a location of a selected companion and a proposed route between the user to the selected companion, and determine an estimated time of arrival of the selected companion at a current location of the user. The proposed route includes pedestrian travel and the request for multimodal personal transportation identifies any specific needs of the user.

Aspects of the present disclosure relate aids for the visually impaired.