DE19632841A1 - Multi-site radio system, base station and method for operating a radio system - Google Patents

Abstract

A decode and control unit 60 in a comparator 50 causes a switching circuit 70 to couple an output 75 to one or more of the traffic signals from base stations 10,20,30,40 in dependence on the respective qualities of the radio signals received at the base stations from a mobile 25, each base station being coupled to the comparator 50 via a respective telephone line 51,52,53,54 over which the base station sends both its traffic signals (eg. audio signals) and an indication of received signal quality. The received signal quality is determined from BER or RSSI, and a signal indicative of quality is sent over the respective telephone line as an amplitude modulation of a predetermined frequency (F2,Fig.2). When a base station receives an alarm signal from a mobile 25, it overrides the quality indicating signal with an alarm indicating signal by sending a signal at the frequency (F2) at an amplitude above the maximum level to which it may be modulated by the quality signal. Control unit 60 connects the alarm signal to an alarm reporting system 79.

Description

FIELD OF THE INVENTION

The invention relates to a multi-site radio system, such as for example a private cellular system, and separated and in addition, it relates to a radio base station and a method for operating a multi-site radio system.

BACKGROUND OF THE INVENTION

A simultaneous transmission system is a radio communication system stem, which has a number of base stations and synchronization features to synchronize the base stations sieren that their transmissions are sufficiently simultaneous so that Signals from different base stations to a given one bene mobile radio unit do not overlap with others, but arrive practically simultaneously on the mobile radio unit men.

Wide area radio communication networks typically include a number of remote receivers or transceivers operating in a nem combined system, their audio signals through different input stages of a comparator, such as for example a SpectraTac (trademark) comparator, be directed. One of these different audio signals that be directed through the different entrance steps, or a subset of it is characterized by a signal quality dependent election process selected. At every receiving station a received signal quality indicator (usually one Receive signal strength indicator or RSSI) provided and on given the comparator to the comparator the base station or display the location where the received signal on strongest is. The comparator "selects" the signal with the strongest RSSI.  

British Patent Application No. 9401727.4, filed on Aug. 23 published in 1995 under the serial number GB 2286753 to be described describes a method for providing egg ner RSSI display from a base station to a comparator over an audio phone line with limited bandwidth.

A problem arises when a mobile radio unit has a Alarm status message generated and this to a base station sends, at which it has a relatively low signal strength Will be received. Such an alarm status message could not be considered (that is, not elected) because one is stronger keren signal from another mobile radio unit at one preference is given to another location.

There is a need for an improved multi-location radio system with alarm status messages and dialing.

SUMMARY OF THE INVENTION

According to the invention, a base station is provided, which has a traffic circuit for receiving radio signals from a mobile radio station and for sending traffic formation to a comparator, a received signal quality measuring circuit for measuring the quality of the received radio signal gnals, a signaling circuit for sending an advertisement the quality of the received signal to the comparator and an alarm circuit which is connected to the signaling circuit that is, in order to cause the signaling circuit, the on show the quality of the signal received from the base station was beginning to cover up with a display of a signal quality that has at least a predetermined height.

The invention provides a simple way of transferring Alarm conditions to the comparator and allows a ver improved alarm handling by the comparator.  

The arrangement is particularly suitable for use over low bandwidth long distance telephone lines, where an extensive digital signaling is not is practical.

Other aspects of the invention are defined in the claims kidney.

A preferred embodiment of the invention will now only described by way of example with reference to the drawings ben.

BRIEF DESCRIPTION OF THE DRAWINGS

Fig. 1 is a block diagram of a base station according to the embodiment of the invention be vorzugten.

Fig. 2 shows an example of a low frequency signal, shown as transmitted through a medium having bandpass characteristics.

Fig. 3 is a block diagram of a wide area network in accordance with a preferred embodiment of the invention.

DETAILED DESCRIPTION OF THE DRAWINGS

Referring to Fig. 1, a radio system in the form of location is a base station 10, the transport circuit, an antenna 11 and an Ver comprises 12 is illustrated. In its simplest form, the traffic circuit 12 is a receiver, but usually it also includes a transmitter circuit, which is not shown. The traffic circuit 12 has a received signal quality measuring circuit 13 for measuring an indication of the quality of the received signals, such as RSSI. Alternatively, other measurements such as the bit error rate can be used to indicate the quality of the received signal. The base station 10 has a signaling circuit 14 , an example of which is described in British Patent Application No. 9401727.4 in the form of a reference signal generator and a variable amplitude signal generator. The traffic circuit 12 has an output 15 and the signaling circuit 14 and the output 15 of the traffic circuit 12 is connected to a combining element 16 which is connected to an output 17 of the base station 10 . The traffic circuit 12 also has an alarm circuit 18 , the operation of which will be described below.

Signals received on antenna 11 are converted to baseband in traffic circuit 12 to deliver a traffic signal to output 15 , for example an audio signal. The received signal quality measurement circuit 13 receives from the traffic circuit 12 an indication of the strength of the received signal, which the circuit 13 passes on to the signaling circuit 14 . In normal operation, the signaling circuit 14 generates a signal which indicates the RSSI and this signal is added to the output signal of the traffic circuit 12 in a combining element 16 . The combined signal is then sent to output 17 .

Referring to Fig. 2, the passband characteristic of a typical telephone transmission line connected to output 17 is shown. A first signal with a first frequency F1 and a second modulated signal with a second frequency F2 are generated by the signaling circuit 14 and displayed at F1 or F2. It is also shown schematically how an RSSI signal (shown on the left side of FIG. 2) modulates the amplitude of the second signal. Preferably, the difference between the first and second frequencies is small compared to the frequency range of the bandpass characteristic of the transmission line in order to minimize the bandwidth used by the first and second signals on the transmission line. The first and second frequencies are preferably placed close to either the lower cutoff frequency of the bandpass characteristic of the transmission line or the higher cutoff frequency of the bandpass characteristic of the transmission line. The generation of these signals is described in more detail in British Patent Application No. 9401727.4, which is scheduled to be published on August 23, 1995 under serial number GB 2286753. It is understood that other methods of displaying the RSSI can be developed over a transmission line.

When a mobile radio generates an alarm signal that can take one of a number of forms, the alarm circuit 18 identifies the presence of the alarm condition and indicates to the signaling circuit 14 the presence of an alarm condition at that location. The signaling circuit 14 covers its current RSSI or another signal quality measurement with a display of a signal quality with at least a predetermined size. The predetermined size is greater than the maximum level of the RSSI display in the preferred embodiment. For example, in a circuit in which the signaling circuit 14 provides a reference signal and a variable signal, and in which the variable signal normally varies from a low level to the level of the reference signal, the variable signal is sent to the combining element 16 at a higher level (For example, 15-20% higher) than the reference signal, as represented by the level of F2 labeled "Alarm" in FIG. 2. The reference level itself can be higher than the maximum RSSI level display.

Other forms of signaling can be used by the signaling circuit 14 , such as signaling at the upper end of the audio band, variable frequency signaling or digital signaling.

Referring to Figure 3, base station 10 and three other base stations 20 , 30 and 40 are shown. A mobile radio unit 25 communicates with these base stations. The respective base stations are connected to a control unit 50 by telephone lines 51 , 52 , 53 and 54 . The comparator 50 comprises a decoding and control unit 60 and a switching unit 70 . The switching unit 70 comprises a number of switching elements 71 to 74 . The circuit 70 has an output 75 which is connected to a console 76 which has an audio output in the form of a loudspeaker 77 . The comparator 50 has an output port 78 which is connected to an alarm notification system 79 .

In operation, the mobile radio unit 25 sends a signal which is received by more than one base station, for example by the base stations 10 and 20 . Traffic signals are sent over the telephone lines 51 and 52 to the comparator 50 , where they are received at the decoding and control unit 60 . The decoding and control unit 60 decodes the RSSI measurement indications in the various signals received and identifies the strongest signal as received at the base station 10 or 20 . The signal with the strongest RSSI is the signal which is most likely to be of the highest quality and the decoding and control unit 60 "selects" so that it receives the signal. The Deko dier- and control unit 60 causes the switching elements 71 to connect the signal from the telephone line 51 to the output 75 . Other arrangements are possible, for example with signals from the telephone lines 51 and 52 , which are combined in a diversity combining arrangement in the switching elements 71 and 72 . The selected signal is sent to the console 76 and output via the loudspeaker 77 .

If a new signal is received by another radio unit (not shown) at one of the base stations 30 and 40 , it is not "selected" by the decoding and control unit 60 until the original signal ends. However, when an alarm message is received at one of the base stations 30 and 40 , it is desirable to prefer the alarm message over the signal from the mobile radio unit 25 . This is accomplished by one of base stations 30 and 40 receiving the alarm message as described with reference to Figure 1 and forcing its RSSI to the predetermined level. This is recognized by the decoding and control unit 60 , which identifies the high level RSSI as an alarm message. The decoding and control unit 60 releases the signal from the base station 10 or 20 and causes the switching elements 73 or 74 , appropriately, to switch the new alarm signal to the output terminal 78 , which is connected to the alarm notification system 79 .

As soon as an alarm occurs on the mobile unit or another remote unit 25 , the RSSI level indicator signal is increased to a predetermined level, that is to say a level which is higher than the corresponding reference level. This condition is recognized by the decoding and control unit 60 and the immediately following alarm message is given to a separate output connection 78 of the comparator 50 , which is connected to the user alarm notification system 79 . If the message comes to a selected channel, a different input or a different combination of inputs can be selected for the voice message transmission. This ensures that the voice message continues without interruption.

Claims (5)

1. Multi-site radio system with:
a plurality of base stations and a comparator connected to the plurality of base stations, each base station comprising a traffic circuit for receiving radio signals from a mobile radio unit and for sending traffic information to the comparator, a received signal quality measurement circuit for measuring the quality of the received radio signals and one Signaling circuitry for sending an indication of the quality of the received signals to the comparator;
wherein the comparator has a plurality of inputs connected to the plurality of base stations, an output and a comparison and switching circuit for comparing the display of the signal quality of different base stations and for switching the traffic from one or more selected base stations to the output depending on the result of the comparison, characterized by
an alarm circuit in at least one of the base stations, the alarm circuit being connected to the signaling circuit of the base station in order to cause the signaling circuit to cover the display of the quality of the signals received by this base station with a display of at least a predetermined size. 2. Radio system according to claim 1, wherein the signaling circuit Displays to the comparator that sends the signal quality display within a display area that extends up to ner maximum display that shows the maximum signal qua lity indicates, wherein the predetermined size is larger than the maximum display. 3rd base station with:
a traffic circuit for receiving radio signals from a mobile radio unit and for sending traffic information to a comparator,
a received signal quality measuring circuit for measuring the quality of the received radio signals,
a signaling circuit for sending an indication of the quality of the received signals to the comparator, and
an alarm circuit connected to the signaling circuit to cause the signaling circuit to cover the display of the quality of the signals received by this base station with an indication of signal quality with at least a predetermined size. 4. Base station according to claim 3, wherein the signaling scarf tung sends messages to the comparator that the signal quality display within a range of advertisements up to a maximum ad that is the maximum Indicates signal quality, and the predetermined size is larger is greater than the maximum display. 5. A method of operating a radio system which comprises at least one mobile radio unit, a multiplicity of base stations and a comparator which has inputs which are connected to the base stations and which has an output, the method comprising the following steps:
Receiving radio signals from the mobile radio unit and sending traffic information to the comparator;
Measuring the quality of the radio signals received by each base station;
Sending indications of the qualities of the signals received at different base stations to the comparator;
Comparing the displays of the qualities of different base stations;
Switching traffic from one or more selected base stations to the exit depending on the result of the comparison; and
Covering the display of the quality of the signals received at a given base station with a display of at least a predetermined size if there is an alarm situation at the given base station.