Communications: directive radio wave systems and devices (e.g. – Directive – Including a satellite
Reexamination Certificate
1998-08-19
2004-01-20
Blum, Theodore M. (Department: 3662)
Communications: directive radio wave systems and devices (e.g.,
Directive
Including a satellite
C342S357490, C701S209000, C701S210000
Reexamination Certificate
active
06680694
ABSTRACT:
BACKGROUND
This invention relates to an information system for motor vehicles.
Vehicle information systems have been developed that provide various types of information to operators of those vehicles. In particular, navigation systems have been developed. One type of navigation system, an autonomous navigation system, uses an on-board map, typically stored on a removable medium such as a compact optical disk (e.g., CD-ROM). The navigation system uses the on-board map to plan a route from a starting point to a destination, which is specified by the operator of the vehicle. Updating an autonomous system's map, for example to add or correct information, typically involves replacing the removable medium.
In some navigation systems the operator inputs the desired destination (and the current location, if required by the system) by entering a spelling of the destination. Some systems also allow an operator to select from a stored list of “points of interest,” such as a list of gas stations or restaurants. Once the operator inputs the destination, the system plans a route along the road network to the destination. The route is typically planned to provide a shortest distance or to try to provide the shortest travel time. Once the route is planned, the operator is guided by the system along the route.
Various approaches to route guidance have been used. A particularly simple approach is to provide the operator with a sequence of discrete instructions, for instance, at intersections where the operator must turn from one street onto another. The operator indicates when he or she is ready for the next instruction. For example, the instructions are provided as an audio output, and the operator says “next” when ready for another instruction.
Another approach to route guidance uses a displayed map on which the planned route and the vehicle's location are dynamically displayed. The operator uses the map to decide when and where to turn in order to follow the planned route.
Some guidance approaches are aided by in-vehicle sensors that are used to estimate the location of the vehicle. For instance, a magnetic compass is used to estimate the direction of travel, and a velocity sensor is used to estimate the distance traveled. In addition, the location of the vehicle can be estimated using the Global Positioning System (GPS). In GPS, multiple satellites emit signals that allow an in-vehicle GPS receiver to estimate its absolute location.
Other types of vehicle information systems have also been developed. In some systems, traffic related information, such as traffic advisories, is broadcast to specially equipped in-vehicle radio receivers.
SUMMARY
In general, in one aspect, the invention is a vehicle information system. The vehicle information system features an in-vehicle system and a centralized server system. The in-vehicle system communicates with the server system using a wireless communication link.
In general, in another aspect, the invention is a method for guiding a vehicle through a road network from a starting location to a destination. The method features transmitting a specification of the destination to a server, for example by transmitting a street address or an identifier of a point of interest. The server determines a route to the specified destination and transmits a specification of the route to the vehicle. The method also includes receiving from the server a specification of a planned route through the road network to the destination as well as receiving from the server a map that includes a specification of the road network in the vicinity of the planned route. For instance, the map can correspond to one or more regions around particular points on the planned route, correspond to a “corridor” around the planned route, or be a complex shaped region in the vicinity of the route. The planned route can include specifications of a multiple maneuvers to be carried out by the vehicle, and the specification of each maneuver then includes a location of the maneuver. The map can be in the vicinity of the starting location, or in the vicinity of one of the specified maneuvers. The method can also feature tracking the location of the vehicle. The method can also feature displaying the received map in conjunction with a representation of the planned route, and a location of the vehicle.
An advantage of the invention is that the vehicle does not have to have a prestored map to plan a route to a destination. Also, the invention provides a way of displaying a map of the vicinity of the starting point or of intermediate maneuver points of a planned route without requiring that the map be prestored in the vehicle. The displayed map can provide useful information to an operator of a vehicle during difficult maneuvers where turn-by-turn instructions.
In general, in another aspect, the invention is a method for tracking a vehicle. The method features receiving a reference signal from a positioning system, for example receiving signals from GPS satellites, and computing position data related to the location of the vehicle using the received reference signal. For example, the position data can be latitude and longitude estimates, or can be GPS pseudorange measurements. The method also features transmitting the position data to a server and receiving from the server position correction data. For example, the position correction can be a deviation in latitude and longitude, or can be correction terms to be applied to GPS pseudorange measurements. The method also features determining estimated coordinates of the vehicle including combining data computed from the received reference signal and the position correction data.
The method can feature repeatedly computing the position data, and determining the estimated coordinates, including combining the position data and the position correction data. The method can also feature, subsequent to the interval of time, repeatedly computing the position data and determining estimated coordinates of the vehicle using the position data without using the correction data.
In general, in another aspect, the invention is a method for tracking a vehicle. The method features receiving a specification of a first location which includes coordinates, such as latitude and longitude, of the first location. The method includes determining when the vehicle is at or passes near the first location. The method includes computing first position data using a reference signal received from a positioning system at the time at which the vehicle was determined to be at the first location. For instance, the positioning system can be a GPS positioning system, and the computed first position data can include pseudorange measurements derived from GPS satellite signals received when the vehicle was at or near the first location. The method further includes computing position correction data using the first position data and the coordinates of the first location. For instance, computing the position correction data can include computing pseudorange correction data based on the latitude and longitude of the first location and on the pseudorange measurements derived from GPS satellite signals received when the vehicle was at or near the first location. The method further includes computing second position data using a reference signal received from the positioning system at a second time subsequent to the time at which that the vehicle was determined to be at the first location, and then determining coordinates of the vehicle at the second time including combining the correction data and the second position data.
The method can feature including in the specification of the first location a specification of a maneuver to be carried out by the vehicle at the first location. Determining when the vehicle is at the first location then includes detecting when the vehicle performs the specified maneuver, for instance using vehicle sensors such as a compass, accelerometers, or a gyroscope.
In general, in another aspect, the invention is a method for detecting when a vehicle deviates from
Asher Harry
Brown Steven
Drury Bob
Jozefowicz Paul A.
Knockeart Ronald P.
Blum Theodore M.
Siemens VDO Automotive Corporation
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