KR100417320B1 - How to adjust your mobile and free athletes - Google Patents

Abstract

In the adjustment method of the mobile radio receiver for adjusting the radio receiver to the transmitting station having the information related to the receiver's time position, in particular, the traffic information, the time position of the receiver is obtained. From the list stored using the input amount depending on the obtained position, the transmitting station identifier is read out as an output amount (program identification code) that characterizes the transmitting station having information related to the obtained position. The receiver is tuned to a transmitting station having a read transmitting station identifier (program identification code).

Description

Tuning method and wireless receiver of mobile radio receiver

In much of the traffic information transmitted in Germany, it is important for motorists to receive only information that is relevant to them. For that reason, it is necessary to switch and adjust the car radio to another transmitting station in the case of relatively long distance driving (in some cases, passing through several cities). In the case of a known car radio, this switching adjustment is performed by hand in accordance with a bulletin board (the frequency of the transmitting station transmitting traffic information of each region is displayed) in some cases located on the side of the automobile road. In this adjustment, a traffic broadcasting system that broadcasts an identification signal is useful for the transmitting station transmitting traffic information. Thereby, the car radio provided with the decoder suitable for tuning is tuned to the traffic broadcasting transmitting station. Area identification signals are also transmitted. As a result, tuning operation is performed only when a transmitting station transmitting the traffic information of the area previously adjusted to the car radio is received. This known apparatus facilitates the adjustment of the transmitting station, but requires a minimum of attention, thereby degrading the traffic safety.

Each transmitting station digitally transmits a transmitting station identifier, which can reliably identify the transmitting station. In Europe, almost all transmitting stations transmit so-called radio data information (RDS), which also includes a so-called program identification code (PI-code), which makes it possible to reliably identify the transmitting station. The PI-code contains information about the region where the transmitting station is located and the individual number of each program that the transmitting station is transmitting. The radio data service also includes a traffic broadcast channel (TMC = Traffic Message Channel) on which actual traffic information is transmitted.

The present invention relates to a method of adjusting a mobile radio receiver to a transmitting station having information relating to its respective position of the receiver, in particular traffic information, and a radio which is automatically adjusted to a transmitting station having information relating to its respective position of the wireless receiver. To a receiver.

Embodiments of the present invention will be described in detail below using various drawings.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a block circuit diagram of an element of a wireless receiver of the present invention, each position of which is required for explanation of the present invention, obtained by a separate device.

2 shows a radio receiver of the present invention in which each position is obtained from a transmitting station that is received each time;

In the drawings, like reference numerals designate like parts.

SUMMARY OF THE INVENTION An object of the present invention is to provide a method and a radio receiver in which traffic information relating to a location at that time, and optionally other information, is provided without a user's special operation. The problem is that according to the method of the present invention, an output amount (program) characterizing a transmitting station having information relating to the obtained position is obtained from the list stored by using the input amount depending on the determined position and obtaining the respective position of the radio receiver. The transmitting station identifier is read out as an identification code, and the radio receiver is solved by adjusting to the transmitting station having one of the read transmitting station identifiers (program identification codes).

The method of the invention has the advantage that only the transmitting station associated with the area in which the receiver is located can be received. If there are a plurality of transmitting stations, the user can select them.

In the method of the present invention, the position of the receiver can be obtained in several ways. In addition to obtaining the location by means of a suitable device (e.g. a GPS-receiver), the location may be entered manually.

Automatically obtaining the location without using additional devices, sensors, or the like, according to embodiments of the present invention, is made possible by making it possible to estimate the location or area of the receiver from the receiving station which can be received at that time.

To this end, in a preferred embodiment of the method of the present invention, the received transmitting station is located by comparing the adjusted frequency and the transmitting station identifier received at that frequency with the frequency and transmitting station identifier stored in the memory arranged according to the region. Determines the area, assuming this area as the location where the receiver is located, and if multiple areas are found, evaluates the category of the receiving station and receives the area if the best receiving category is assigned to this station. Is considered a location where is located, otherwise connects the receiver to a different frequency, thereby reducing the number of specific areas, and using the received transmitting station identifier to determine the area in which the adjusted transmitting station is located; Whether the process is determined by a certain area or by the frequency with the highest category, It has been proposed that a resolution be repeated until the evaluation.

In another embodiment of the method of the present invention, the input amount depends on other data that can be input via the operating element. By doing in this way, the number of transmitting stations which a user receives or is provided for receiving can be reduced. For example, within a border area from one city to another, the tuning of a transmitting station may be limited to the transmitting station of the city the user enters.

For a preferred embodiment of the method of the present invention, the transmitting station tuning process is initiated to adjust the transmitting station using the read program identification code, and the program identification code received in the process is compared with the read program identification code, It is proposed to stop the transmission station selecting process when the read program identification code and the program identification code of the transmitting station received each time are the same.

By doing so, it is particularly easy for the user to additionally tune a large number of automatically tuned transmission stations. In other words, the user only needs to press a button when he is not interested in the transmitting station.

In another embodiment of the method of the present invention, multiple location areas are integrated into one input amount each time to calculate the input amount from the obtained position. In this way, the table can be made smaller, and it is not necessary to change the station selection of the transmitting station unnecessarily frequently.

In the method of the present invention, predictive adjustment is made by adjusting a transmitting station having information related to an area located in the moving direction, in consideration of the movement of the radio receiver measured by comparison of a plurality of positions obtained at different points in time when the input amount is formed. You can do

The wireless receiver of the present invention comprises an apparatus for obtaining the position of the receiver, a stored list containing a correspondence between a program identification code and an input amount depending on a possible position of the receiver, and an output connected to a radio data signal decoder. For control of the receiver, including the process of selecting a transmitter, and for transmitting station selection, for evaluating the decoded radio data signal, for forming an input amount from a position obtained by the apparatus for positioning, and for retrieving a program identification code according to the input amount formed Characterized in that it comprises a computer.

As a device for locating a wireless receiver, various known devices including a GPS receiver can be used. Suitable methods and suitable apparatus for determining the position of the radio receiver are described in the applicant's prior art German patent application P44 25 194.

An embodiment of the radio receiver of the present invention that can manually control the tuning of a transmitting station is in an operating element capable of inputting other data depending on the input amount.

In another embodiment of the wireless receiver of the present invention, instead of an input amount depending on the position of the wireless receiver, it is possible to input data characterizing a geographical area which does not depend on the position at that time. This allows the user to, for example, arrive in a short time and enter a geographic area of interest for that traffic situation.

In order to make the wireless receiver of the present invention available in a large number of regions, it is furthermore possible to store the list in an exchangeable data carrier, in particular a chip card, in order to avoid having to remember the program identification codes in the entire area at that time. It is proposed to let.

In the case of the radio receiver shown in FIGS. 1 and 2, the signal received from the antenna 1 is supplied to the receiver 2, and the stereo multiplexed signal MPX can be tapped from the output unit 3. In a known manner, the stereo multiple signal is supplied to the stereo decoder 4, and audio signals L and R can be tapped from the output side thereof, and supplied to the speakers 7 and 8 via the amplifiers 5 and 6. .

An output 3 of the receiver 2 is also connected with an ARI / RDS decoder 9, the output signal RDS of which is supplied to the microcomputer 10, whereby the main functions of the receiver of the present invention are controlled. It is possible. In particular, the receiving unit 2 is also controlled by the microcomputer 10 regarding the adjustment of the transmitting station. The microcomputer 10 is connected to the display device 11 and the input unit 12.

In the wireless receiver of FIG. 1, the microcomputer 10 is also connected with a positioning device 13 and a memory 14 having a list, which transmits traffic information relating to the area G at that time. The program identification code PI of the station is stored. In addition, the list includes the boundaries of each region (eg, indicated by xm and ym in FIG. 1 in the form of the maximum and minimum values of the coordinates).

The device 13 continuously generates coordinates (x, y) which change as the vehicle or receiver moves. The microcomputer 10 compares the coordinates with the minimum and maximum coordinates stored in the list 14 for each region G, and as a result, the region G at which the coordinates (x, y) at that time correspond. Is obtained. In that case, the movement direction can also be considered by forming the difference between each coordinate (x, y) calculated successively. In this way, for example, when the receiver is moving in the boundary direction of the region G, the region immediately next in this direction can be taken into consideration when adjusting the transmitting station.

When the area G is obtained as described above, the program identification code is read from the list 14 for this area. In the part of the list shown as an example in FIG. 1, in the case of the region G1, the relevant information is transmitted by the transmitting station having the program identification code 1, 2 or 3. The relevant information is sent by the transmitting station having program identification code 2, 4 or 5 for region G2 and by the transmitting station having program identification code 4, 5 or 6 for region G3. It is being sent.

The microcomputer 10 controls the receiving section 2 during the transmitting station selecting process, and only the transmitting station which transmits traffic information is considered in that case. When the tuning process is tuned to either transmitting station, the program identification code received with this transmitting station is immediately compared with the program identification code read from the list 14. If the comparison does not match, the tuning process is started again, and if there is a match, the adjusted transmitting station is received until the next tuning operation is performed.

In the case of the embodiment of Fig. 2, the position of the radio receiver is obtained by reception according to the sample (probe) format of one or more transmitting stations. For this purpose, a transmitting station that can be received for the area in question is stored in the list 15 together with its frequency, its program identification code, category and class. A category is a classification of transmitting stations according to how much each transmitting station covers a relevant region. The class represents the transmission power, substantially the service range of the transmitting station.

One of each region G is obtained using the table 15 by reception according to the sample format of various transmitting stations. At that time, since it proceeds step by step, as few transmission stations as possible can be received in sample format. For example, if it is determined after reception of one transmitting station that this transmitting station can be received only in one of each region, the position or region G is obtained. If it is assumed that the reception of one transmitting station is related to multiple regions, the other transmitting station is checked in consideration of its category and class until one of the regions is clearly determined. At that time, the transmitting station is considered whether or not it transmits information related to each area.

After the area G is obtained, one or more PI-codes are read from the list 14 and used for adjustment of the transmitting station (as described above with reference to FIG. 1).

Claims (10)

Every time position of radio receiver is found, A transmitting station identifier is read as an output amount from a list stored by an input amount depending on the obtained position, the identifier characterizing a transmitting station having information related to the obtained position, The wireless receiver is tuned to a transmitting station having the read transmitting station identifier, For positioning purposes, the digitally transmitted transmitting station identifier of the coordinated transmitting station, in particular the PI-code according to the RDS system, is received and evaluated by the radio receiver, The adjusted frequency and the received transmitting station identifier are arranged in a regional order and compared with the frequency and transmitting station identifier stored in the memory, A method for coordinating a mobile radio receiver to a transmitting station having information relating to the time location of the radio receiver, preferably traffic information, configured in such a way that the location of the received transmitting station is located and the area considered to be the radio receiver location is determined. To If multiple regions are detected, the category of the received transmitting station is evaluated, and if the largest category is assigned to the transmitting station, the regions are considered as receiver locations, where the small category indicates that the transmitting station While fully covering, larger and larger categories instruct the transmitting station to cover an increasingly smaller area of the region, Otherwise, the receiver is connected at a different frequency, which reduces the number of specific regions, and the region with the transmitting station coordinated by the received transmitting station identifier is determined, And the process is repeated until a clear area is determined or the finest resolution characterized by the frequency with the largest category is evaluated. Every time position of radio receiver is found, A transmitting station identifier is read as an output amount from a list stored by an input amount depending on the obtained position, the identifier characterizing a transmitting station having information related to the obtained position, 10. A method for coordinating a mobile wireless receiver to a transmitting station having information relating to the respective position of the wireless receiver, preferably traffic information, the wireless receiver being adapted to tune to a transmitting station having the read transmitting station identifier. , And the respective position of the radio receiver is detected by a GPS receiver. 3. Method according to claim 1 or 2, characterized in that the input amount depends on other data which can be input via the operating element. A transmitting station tuning process is initiated to adjust a transmitting station having the read program identification code, wherein the received program identification code is compared with the read program identification code and is read. And if one of the received program identification codes and the program identification code of the transmitting station received each time are the same, the tuning procedure of the transmitting station is stopped. A method according to claim 1 or 2, characterized in that a plurality of location zones are respectively integrated into one input quantity from the obtained position to calculate the input quantity. The transmitting station according to claim 1 or 2, wherein the transmitting station having information related to the region located in the moving direction is adjusted in consideration of the movement of the radio receiver measured by comparing a plurality of positions obtained at different points in time when the input amount is formed. And adjusting the mobile radio receiver. A radio receiver for carrying out the method according to claim 1 or 2, An apparatus (13, 10) for locating the radio receiver; A memorized list 14 containing a correspondence relation between an input amount and a program identification code depending on a possible position of the radio receiver, A receiver 2 having an output 3 connected to a wireless data signal decoder 9, For the control of the receiver 2 including the transmitting station tuning process, for the evaluation of the decoded radio data signal, for the formation of the input amount from the position obtained by the apparatus 13, 10 for positioning, and according to the input amount formed A wireless receiver comprising a computer (10) for inquiry of an identification code. 8. A radio receiver as claimed in claim 7, comprising an operating element (12) capable of inputting other data depending on the input amount. 8. A radio receiver as claimed in claim 7, wherein data can be input that characterizes a geographical area that does not depend on the location at that time, instead of an input amount that depends on the location of the radio receiver. 8. A radio receiver according to claim 7, wherein the list is stored in an exchangeable data carrier, in particular a chip card.