A system for response mode verification according to an embodiment of the present disclosure may include a user interface device; a vehicle motion sensor located in a vehicle; a memory; and/or a processor communicably coupled to the user interface device, the vehicle motion sensor, and the memory, the memory including instructions that, when executed by the processor, cause the processor to: receive a dispatch request, receive a first indication from the user interface device based on a user indicating acceptance of the dispatch request, record an acceptance time of the first indication, receive a second indication from the vehicle motion sensor based on the vehicle motion sensor monitoring a change in movement of the vehicle, and record a vehicle motion time of the second indication, generate a notification indicating that a difference between the vehicle motion time and the acceptance time exceeds a threshold time.

A system may have a mobile device having at least two wheels and a distance measuring device configured to be removably attached to a frame of the mobile device, which can be a mobility assistance device, such as a walker and a wheelchair. The distance measuring device may have at least a sensing mechanism, an accumulator, and a display that are in communication with one another, with the sensing mechanism configured to monitor rotation of the at least one of the at least two wheels of the mobile device and the accumulator configured to determine the distance traveled by the mobile device based on this rotation and output the distance result on the display.

A system may have a mobile device having at least two wheels and a distance measuring device configured to be removably attached to a frame of the mobile device, which can be a mobility assistance device, such as a walker and a wheelchair. The distance measuring device may have at least a sensing mechanism, an accumulator, and a display that are in communication with one another, with the sensing mechanism configured to monitor rotation of the at least one of the at least two wheels of the mobile device and the accumulator configured to determine the distance traveled by the mobile device based on this rotation and output the distance result on the display.

The method employs a computer interconnected with a GPS transceiver and a distance measurement means and operatively interconnected with a digital camera, all provided on a moving vehicle, in order to acquire a plurality of geographic location related images. A first geographic position is obtained from the GPS transceiver and a plurality of distance measurements are then received before a second geographic position is taken. A photo request is generated after a pre-determined distance has been traveled and is transmitted to the digital camera. The camera takes a photo based on the request and the photos, photo requests, first and second positions and distance measurements are stored for post-processing. The post-processing determines a path traveled by the vehicle using the positions and distance measurements and assigns an accurate geographic location and orientation to each photo. The method is useful in building a database of geographically related images.

The method employs a computer interconnected with a GPS transceiver and a distance measurement means and operatively interconnected with a digital camera, all provided on a moving vehicle, in order to acquire a plurality of geographic location related images. A first geographic position is obtained from the GPS transceiver and a plurality of distance measurements are then received before a second geographic position is taken. A photo request is generated after a pre-determined distance has been traveled and is transmitted to the digital camera. The camera takes a photo based on the request and the photos, photo requests, first and second positions and distance measurements are stored for post-processing. The post-processing determines a path traveled by the vehicle using the positions and distance measurements and assigns an accurate geographic location and orientation to each photo. The method is useful in building a database of geographically related images.

The distance estimation device acquires distances from a movable body at a first time and a second time to two ground objects, respectively, and acquires a distance between the two ground objects. Then, the distance estimation device calculates a moving distance of the movable body from the first time to the second time based on the acquired results. Thus, the distance estimation device calculates the moving distance of the movable body by using arbitrary ground objects measurable from the movable body.

The distance estimation device acquires distances from a movable body at a first time and a second time to two ground objects, respectively, and acquires a distance between the two ground objects. Then, the distance estimation device calculates a moving distance of the movable body from the first time to the second time based on the acquired results. Thus, the distance estimation device calculates the moving distance of the movable body by using arbitrary ground objects measurable from the movable body.

A vehicle position detecting device according to an embodiment includes a wheel speed acquisition unit, a skid detection unit, a vehicle body speed calculation unit, and a position calculation unit. The wheel speed acquisition unit acquires a wheel speed of a wheel of a vehicle corresponding to rotation of the wheel. The skid detection unit detects a skid of the wheel. The vehicle body speed calculation unit calculates, when the skid is not detected by the skid detection unit, a vehicle body speed corresponding to the speed of a vehicle body of the vehicle based on the wheel speed acquired by the wheel speed acquisition unit, and corrects, in response to detection of the skid by the skid detection unit, the wheel speed acquired by the wheel speed acquisition unit based on correction information and calculates the vehicle body speed based on the corrected wheel speed. The position calculation unit calculates the position of the vehicle based on the vehicle body speed calculated by the vehicle body speed calculation unit depending on the presence of the skid.

An electronic distance recorder configured to be coupled to a wheel hub of a vehicle, the electronic distance recorder comprising: means for determining distance travelled by the vehicle; means for storing a current vehicle odometer value; means for accruing the current vehicle odometer value based on the distance travelled by the vehicle; a receiver for receiving license data representative of a vehicle license issued for the vehicle; and an electronic display configured to display an indication of the validity of the vehicle license. Vehicle information recorders, communication devices and power generators are also disclosed.

An electronic distance recorder configured to be coupled to a wheel hub of a vehicle, the electronic distance recorder comprising: means for determining distance travelled by the vehicle; means for storing a current vehicle odometer value; means for accruing the current vehicle odometer value based on the distance travelled by the vehicle; a receiver for receiving license data representative of a vehicle license issued for the vehicle; and an electronic display configured to display an indication of the validity of the vehicle license. Vehicle information recorders, communication devices and power generators are also disclosed.