Device for informing a motor vehicle driver

Details Device for informing a motor vehicle driver Device for informing a motor vehicle driver

1997-03-27

2003-03-18

Swarthout, Brent A. (Department: 2632)

Communications: electrical

External condition vehicle-mounted indicator or alarm

Highway information

C340S995190, C701S211000

Reexamination Certificate

active

06535140

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates to a device for informing a motor vehicle driver and more specifically for informing a motor vehicle driver about traffic conditions and routing.
BACKGROUND OF THE INVENTION
The Radio Data System (RDS) enables the additional and inaudible transmission of digital data, in parallel with radio programs, in a data channel. Specifications of the Radio Data System for VHF sound radio are defined, inter alia, in the publication
Tech
. 3244-
E
, March 1984 of the European Broadcasting Union (EBU). Besides receiving radio signals, radio receivers having the requisite RDS decoders can receive and decode transmitted data, using the same receiving part. The data transmission takes place in 32 groups of 108 bits each, a specific service being assigned to each group. The group
8
a
is provided for transmitting digitally coded traffic messages.
The structure and coding of these traffic messages are defined in detail in the proposed standard,
ALERT C
, November 1990, published by RDS ATT ALERT Consortium. The essential elements of a traffic message are the location of the occurrence and the event. This information is cataloged, i.e., a unique code is assigned to each location and event that have relevance to traffic. The locations are integrated in the location table along existing streets to reproduce the pattern. In addition to the customary receiver devices having an RDS decoder, in order to utilize the traffic report channel TMC (Traffic Message Channel), devices are needed for decoding, for storing, for further processing, and for outputting the traffic messages—also referred to in the following as TMC receivers.
Auto navigators have also become known, which determine the instantaneous position of a vehicle and, with the aid of a digitally stored road map and an entered travel destination, calculate and display proposed routes. To determine position, sensors, which detect the motion of the vehicle on the road surface, as well as satellite positioning systems (GPS) can be used. The calculated proposed routes can be output as maps with the proposed routes marked, or as an instruction on how to act at intersections and turn-offs. Thus, auto navigators are known, for example, where an arrow symbol that assumes different shapes and directions shows the motor vehicle driver the way. However, in known auto navigators, the route recommendations and, in some instances, other information are determined merely on the basis of a digitally stored road map, without giving consideration to vicissitudes in the road network, in particular temporary irregularities resulting from traffic jams or stoppages.
The object of the present invention is to improve the information given to the motor vehicle driver over known devices and systems in the event of obstructed traffic.
This objective is achieved in accordance with the present invention in that a decoder for digitally coded traffic messages and an auto navigator, which is designed to determine the instantaneous position of the vehicle and to calculate route recommendations, form one basic structural unit.
An advantage of the device according to the present invention is that by forming one basic structural unit, different components can be used both for decoding and managing traffic messages, as well as for the auto navigator. Besides attaining an economic advantage, quality is also improved, for example, through a more rapid signal processing.
Another advantage consists in that digitally coded traffic messages are taken into consideration when proposed routes are calculated and displayed. Moreover, the device according to the present invention plays a role in not giving the vehicle driver an unnecessary excess of visual or acoustic traffic messages that are not relevant to his or her probable route, in that the instantaneous position of the vehicle, an entered destination and proposed routes are considered when selecting the traffic messages to be output.
The interaction of the auto navigator and the decoding and outputting of traffic messages leads, in addition, to the advantages known from both systems, as well as to an improvement in the travel information supplied by the auto navigator.
The improved output of traffic messages consists above all in that by knowing the position of the vehicle determined at any one time by the auto navigator and the destination entered by the user, traffic messages to be output are able to be selected quite expediently from the total of those received. Thus, in most operational cases, it makes sense for the vehicle driver to receive only those traffic messages which relate to his or her probable route or to alternative routes. The travel or route recommendations are improved when working with the device according to the present invention because they are calculated in view of the received and decoded traffic messages. In particular, traffic messages, which pertain to traffic jams or slow moving traffic, can thereby be converted into traffic resistance values, which are then compared to determine various alternative routes.
Although it is not ruled out within the scope of the invention to consolidate into one basic unit including a radio receiver, one preferred specific embodiment provides for the digitally coded traffic messages to be able to be supplied by a radio receiver.
One further embodiment of the present invention consists in that a digitally coded road map, and information necessary for decoding and outputting the traffic messages are stored on the same data storage medium. This storage device is preferably a compact disk (CD ROM), which, because of its large memory capacity of, for example, 640 MByte, in addition to the volume of data required for the digitally coded road map, is able to store considerably more data than the chip card provided for TMC receivers.
Therefore, this further embodiment is preferably so conceived that the information required for decoding and outputting the traffic messages is stored in a location list, which includes at any one time selected locations in coded form, locations adjacent to the selected locations, route sections belonging to the selected locations, and names of the selected locations.
The location names can be in the form of coded graphic characters, such as ASCII codes and/or phonetic codes. Furthermore, the location names can be stored in several languages, provided that it is customary for the locations in question to have location names in several languages. Finally, even the phonetic code of a location name can be stored repeatedly to enable the location name to be adapted to the remaining part of a traffic message.
Because of its designated purpose, namely to decode and output traffic messages, the location list provided for TMC receivers has a structure that is quite different from that of a digital road map. In particular, the location lists in accordance with ALERT C are distinguished in that the locations are described with a point-to-point orientation and that, depending on the location, the amount of data is relatively small because of the storage medium provided for TMC receivers. Moreover, the TMC system provides for different location lists. Therefore, when a TMC receiver (inclusive of the decoder) and an auto navigator, including one storage medium each for the location list and for the digitally coded road map, interact, it is necessary to adjust the data between the location list and the road map. Therefore, given a lack of conformity, which can also be caused, inter alia, by different revision levels of the storage media, an interaction between the TMC receiver and the auto navigator is adversely affected or is even impossible.
However, when the same storage medium is used, it is possible to record data that have been reconciled to one another when the storage medium was manufactured. When the user acquires a new storage medium, along with a new version of the road map, he or she then automatically receives the matching location list used in decoding and reproducing traffic messages.
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