KR20010043745A - Mobile radio receiver - Google Patents

Abstract

The present invention relates to a mobile radio receiver, which includes, for example, R (B) DS, so that it can listen to one station even when moving beyond the coverage range of the FM-transmitter. Make sure In order to improve the mobile radio receiver, the present invention provides a mobile radio receiver using means for determining the position of the receiver.

Description

Mobile radio receiver and wireless channel reception method {MOBILE RADIO RECEIVER}

Mobile radio receivers are known in the art. The wireless receiver has many presets that store the associated transmitters. When using these presets in an FM-mobile radio receiver (portable, car, etc.), the user is faced with the fact that the FM-transmitter has only a very limited service range. Modern techniques such as R (B) DS and fast responding tuners can be used to implement some sort of following system. There are currently no switching options available for slow responding tuners.

European patent application EP-A-0 462 116 discloses a radio receiving method and receiver using RDS.

In particular, it is an object of the present invention to provide a mobile radio receiver and a radio channel reception method which can overcome the disadvantages of the prior art. To this end, a first aspect of the invention provides a mobile wireless receiver as defined in claim 1. A second aspect of the present invention provides a radio channel reception method as defined in claim 2. An advantage of a mobile wireless receiver that includes means for determining the location of the receiver is that the mobile wireless receiver can use this information, such as by selecting the most powerful FM-transmitter.

A wireless receiver using a typical RDS system switches when it detects that another FM transmitter is stronger than the current FM transmitter, but in that it can switch before the FM transmitter is weakened. The performance of the wireless receiver is greatly improved.

One embodiment of a mobile radio receiver according to the invention comprises the features defined in claim 2.

Another embodiment of a mobile radio receiver comprises the features defined in claim 3.

If the wireless receiver includes cellular (eg GSM) or GPS equipment, information from the cellular or GPS equipment may be available when selecting the most powerful FM-transmitter. Using this information in an array-like structure in the wireless receiver preset system, the user can create his own follow system based on so-called position awareness. In addition, combining this information with R (B) DS information may not only improve the potential for low speed tuning systems but also improve R (B) DS follow behavior for high speed tuning systems.

Here, it should be noted that the present invention can also be used in so-called DARC-systems used for data, for example in Japan and the United States.

Another embodiment of the invention is defined in the dependent claims.

The present invention relates to a mobile radio receiver. The invention also relates to a method of receiving a wireless channel. The present invention also relates to a position determining means used in a mobile radio receiver.

The invention and additional features that may be advantageously selected will become apparent with reference to the embodiments and drawings described hereinafter.

1 is an exemplary schematic block diagram of a mobile wireless receiver in accordance with the present invention;

2 is an example of a preset list.

1 shows an exemplary schematic block diagram of a mobile wireless receiver in accordance with the present invention. In this embodiment, the mobile wireless receiver does not use one preset array, but has a matrix of preset arrays, so that the other side of the matrix loads (provision) information. For similar facilities, this location information may come from the transmitted cell information (eg, REGIO040). In the case of GPS, this location information may be generated by the receiver itself through a learning system based on GPS co-ordinates. With this learning system, the receiver creates its own cell.

In addition, two types of control are possible. In the following, manual control will first be described, and then automatic control will be described.

The user manually remembers his favorite station using various preset keys. The second parameter is location information (area XX), which can be used automatically or manually.

By loading their preferred stations in each array cell, the wireless receiver can use this information by automatically switching between corresponding presets when the location information changes.

FIG. 2A shows one embodiment of manual control with preset numbers 1, 2, ... written with different FM transmitter frequencies for each area (area 1, area 2, etc.).

Now when the user moves from zone 1 to zone 2, the wireless receiver will automatically switch from 88.2 to 92.6 (if the user was listening to preset 1).

To further improve location awareness and facilitate operation by the user, FIG. 2 shows one embodiment of automatic control in which program information (PI) code information from an R (B) DS system is added to the information flow. We no longer need to use a uniform sequence. Within a few hundred milliseconds after tuning to one transmitter (broadcasting R (B) DS data), PI code information is stored in a preset array (along with frequency information). By confirming the PI code information along with the location information, the wireless receiver can be switched directly to the corresponding station. In FIG. 2, the PI code information is located between, for example, parentheses 8202 and parentheses 8203.

Now, if the user moves from zone 1 to zone 2, the wireless receiver will automatically switch from 88.2 to 92.6 (if the user was listening to preset 1 in zone 1).

A wireless receiver using a typical RDS system switches when it detects that another FM transmitter is stronger than the current FM transmitter, but in that it can switch before the FM transmitter is weakened. The performance of the wireless receiver is greatly improved.

It should be noted that the above-described mobile radio receiver and method of the present invention have been described based on embodiments. Those skilled in the art will appreciate that various modifications are possible within the scope of the invention.

As mentioned above, the present invention can also be used in so-called DARC-systems used for data, for example in Japan and the United States.

Claims (7)

A mobile radio receiver comprising means for determining the position of the receiver. The method of claim 1, And the means for determining the position of the receiver comprises means for detecting a cell in which the receiver is present during operation. The method of claim 1, And the means for determining the position of the receiver comprises global positioning means. The method of claim 1, And the receiver comprises means for manually storing at least one station. The method of claim 1, And the receiver comprises automatic storing means. Determining a location of a receiver and selecting a received wireless channel based on the determined location. Position determining means used in the mobile radio receiver of claim 1.