WO1998027761A2 - Method and arrangement for using a mobile phone in a wireless office network - Google Patents

Abstract

The present invention relates to a method and an apparatus for using a mobile phone in a Wireless Office Network. The apparatus includes a Service Engine (40) connected between an MSC (30) and a PBX (50). The Service Engine (40) includes a Subscriber Data Base (43) in which mobile telephone extensions and corresponding Wireless Office System extension number (WOSno) are registered. When the service engine receives a call to a WOS user the service engine converts the WOS number to the corresponding mobile subscriber number. The WOS number of a calling part is being presented on the terminal of the called part.

Description

METHOD AND ARRANGEMENT FOR USING A MOBILE PHONE IN A

WIRELESS OFFICE NETWORK

Technical Field of the Invention

The present invention relates to a method and an apparatus in a

telecommunication system. More specifically the invention relates to an

arrangement and a method for using a mobile phone in a Wireless Office

Network.

Description of Related Art

There is a related system described in the US patent application with filing

number 08/366,471 and with the title "Cellular phone access to PBX". In the

mentioned application is described a system for providing a mobile cellular

phone with access to a Private Branch Exchange and particularly to the services

provided by the exchange.

Summary of the invention

According to the invention there is a different way of solving the problem of

making it possible to use a mobile phone within a Private Network.

A first object of the invention is to allow subscribers to use their standard mobile

phones within the coverage area of a Wireless Office Network.

A second object of the invention is to obtain a Wireless Office Network in which

no changes need to be done in the mobile telephone, in the Mobile Switching

Centre or in the PBX. A third object of the invention is to make concurrent ringing of the subscriber's

desk phone and the mobile phone to avoid long ring delays for callers.

A fourth object of the invention is to present a calling Wireless Office System

extension number on the called terminal.

The invention is related to a service engine implemented in a Wireless Office

Network including a base station, a Mobile Switching Centre, said Service

Engine and a Private Branch Exchange. The Mobile Switching Centre (MSC)

being connected to a Cellular Network and the Private Branch Exchange (PBX)

being connected to a Public Switched Telephone Network (PSTN) or a Private

Telephone Network (PTN). Wireless Office System (WOS) users have their

Mobile Telephones registered in the Service Engine (SE).

The invention also includes a method for making a call from a registered mobile

telephone within the coverage area of the WOS network and a method for

receiving an incoming call in a first Mobile Telephone which is registered in the

Service Engine as a Wireless Office user.

One advantage of the invention is that a mobile phone can be used within an

office building. Mobile telephone originations from within the WOS network

coverage area is being routed via the normal land-line telephone facilities of the

premises systems (PBX), such as exploiting bulk pricing and least cost routing.

Thus, costs for using the mobile phone is being reduced by use of the invention.

Another advantage is that calls to a mobile phone of a wireless office user can

be received also outside the coverage area of the Wireless Office Network. A further advantage is that in the system according to the invention there are no

extra requirements on the mobile telephone, the mobile network or the PBX.

A further advantage is that guests in the Wireless Office Network can use their

Mobile Phones without being registered in the system.

Brief Description of the Drawings

A more complete understanding of the method and system of the present

invention may be had by reference to the detailed description following, taken in

conjunction with the accompanying drawings, wherein :

Figure 1 is a block diagram of a Wireless Office System connected to a Cellular

Network and a Public Switched Telephone Network and/or a Private

Telecommunication Network.

Figure 2 illustrates a Service Engine according to the invention, the Service

Engine being part of the Wireless Office System .

Figure 3 is a flow chart describing how the Wireless Office System is handling

an outgoing call from a Mobile Telephone within the coverage area of the

Wireless Office System.

Figure 4 is a flow chart describing how the Wireless Office System is handling

an incoming call to a Wireless Office user.

Description of Preferred Embodiment

Figure 1 discloses a Wireless Office Network 10 which includes a Base Station

20 (BS) with a specific radio coverage area, a Mobile Switching Centre 30

(MSC), a Service Engine 40 (SE) and a Private Branch Exchange 50 (PBX). In the example there are two mobile stations MS1 and MS2 in the radio

coverage area of the base station 20. The Base Station 20 is connected to the

Mobile Switching Centre 30 (MSC), which is a regular MSC that provides

switching functions and cellular mobility management functions such as location

registration, authentication and hand-over. In this implementation the MSC

sometimes is denoted OSC Office Switching Centre. The MSC 30 is connected

to the Service Engine 40 which in turn is connected to the PBX 50. The MSC is

connected to a Cellular Network 70 and the PBX is connected to a Public

Switched Telephone Network or a Private Telecommunication Network

(PSTN/PTN) 60.

Figure 2 shows a more detailed figure of the Service Engine 40 which is

connected to the MSC by SS7 ISUP (ISDN User Part) trunks and to the PBX by

ISDN (Integrated Switched Digital Network) trunks. The Service Engine is a

gateway between the PBX and the MSC and thus converts ISDN (Integrated

Switched Digital Network) signalling on the PBX side to SS7 ISUP signalling on

the MSC side and vice versa. It is thus clear that the Service Engine switches

calls between the PBX and the MSC. The Service Engine 40 is controlled and

administered independently of the PBX 50. The introduction of the Service

Engine thus eliminates potential translation, control, resource and sizing

problems of the PBX.

The Service Engine 40 includes software 41 and a processor 42 for controlling

of the Service Engine 40. The Service Engine also includes a Subscriber Data Base 43 in which all Wireless Office System users are being registered. The

processor 42 is connected with the Subscriber Data Base 43. The processor 42

also has access to stored Number Analyse Data 44 which includes information

on a first prefix for external calls and a second prefix for PBX calls.

The Subscriber Data Base 43 of the Service Engine 40 keeps track of registered

mobile subscriber numbers (MSno.) and corresponding Wireless Office System

extension numbers (WOSno.). Each Mobile phone has a specific Wireless

Office System extension number (WOSno.). The Subscriber Data Base 43 also

includes information on corresponding desk phones connected to the PBX. The

desk phones have their desk phone numbers (Deskno.) registered in the

Subscriber Data Base. Thus, the desk phone will have an extension number

different from the WOS extension number. In the Subscriber Data Base 43 there

are also listed alternative extensions (alternative) to which calls are routed when

the mobile phone is not accessible. The alternative extension can for instance

be a voice mail number. There is also a Personal Profile stored in the

Subscriber Data Base 43. For instance, the personal profile can be used for

storing any information on rerouting if no answer from the mobile phone. The

personal profile can also be programmed to not reroute calls to the mobile

phone during specified times.

In the PBX the WOS extension numbers (WOS no.) are a part of the private

numbering plan 51. Thus, the WOS numbers can be seen as an extension of the PBX. When a call to a WOS extension is received in the PBX, the PBX just

sends the call to the Service Engine. The mobile phones, however, are not PBX

phones and the Wireless Office System is not a "classic" wireless system with

all the features of such a system. The mobile phones which are registered in the

Subscriber Data Base 43 does not have access to all the services in the PBX.

Figure 3 is a flow chart illustrating the different method steps that are taken in a

preferred embodiment of the invention. See also figure 1 and 2 during

description of the method steps. This description is related to a method for

making a call from a first mobile telephone MS1 in the described Wireless Office

Network 10. The mobile telephone has to be in the coverage area of the base

station 20. The first mobile telephone has in this example the mobile telephone

number 030-1234555 and is registered in the Subscriber Data Base with WOS

number 30036 and desk phone number 20036. Suppose, in this example, that

the user of the first mobile telephone wants to make a phone call to a second

mobile telephone MS2, which also is a registered WOS user with WOS number

30040 and mobile telephone number 030-1234888. In a first step 100 the

desired number (desnum = 30040) is dialled from the first mobile telephone

MS1. In step 102 the base station transmitts information on dialled number

(desnum) and mobile telephone number on the dialling part to the MSC 30. The

MSC sends all information from the connected base station 20 to the Service

Engine 40. In step 104 the processor 42, under control of a the software 41 ,

analyses if the dialling mobile phone is a registered WOS user. This is done by comparing the mobile phone number of the dialling mobile phone MS1 with the

listed mobile phone numbers in the Subscriber Data Base 43.

If the calling part is a registered WOS user, then in step 110 it is analysed if the

dialled number is a WOS number (WOSno.) in the Subscriber Data Base 43. If

dialled number is a WOS number, as in this example, then in step 111 the

processor 42 under control of the program 41 converts the WOS number to the

corresponding mobile telephone number. Then in step 112, a call is set up in a

regular way via the MSC to the called mobile phone. In this example the

conversion is being done from the dialled WOS number 30040 to mobile

telephone number 030-1234888. The second mobile phone MS2 is in the

coverage area of the WOS network and the MSC sets up the call to MS2.

Concurrently in step 114, when the mobile phone is ringing the Service Engine

sets up a call to the corresponding desk phone (20040) so that the receiver of

the call can use the desk phone if it is preferred. The set up to the desk phone is

of course done only if there is a desk phone. When a call is set up, as described

in step 112, the connection is being managed by the Service Engine 40. In step

112 and 114, when the number of the calling part is transmitted to the called

part, the WOS number is always presented on the called terminal. For the

purpose of presenting the WOS number the processor in the Service Engine

(40), under the control of the program, converts the mobile telephone number to

the WOS number for presentation of the WOS number on the called terminal. In step 112 when the call is being set up to the second mobile phone it doesn^'t

matter if the dialled mobile phone MS2 is within the coverage area of the

Wireless Office Network or in the Cellular Network. The MSC connects the call

to the called mobile phone irrespective of where the phone is.

If the analyse in step 104 gives the result that the calling part is not a registered

mobile phone there are some other features of the system. The calling part can

be a guest who wants to use his mobile phone within the Wireless Office

Network. The guest is not registered in Subscriber Data Base 43. It is, according

to the invention, possible for a guest to use the Wireless Office System when

calling a WOS extension number. This means that the guest dials the same

number to a WOS user as from outside the Wireless Office Network. In step

116 an analyse is done to see if the dialled number has a PBX prefix and is a

WOS number. This is done by a simple analyse, in Number Analyse Data 44, of

the first digits of dialled number. If the dialled number has the PBX prefix and is

a WOS number, then the calls are handled by the Service Engine 40 as

described in step 111 , 112 and 114. Otherwise, in step 120, the call is returned

from the Service Engine 40 to the Cellular Network 70. In the Cellular Network

the call is being handled in a regular way.

If the analyse in step 110 makes clear that the dialled number is not a WOS

number then, in step 122, the call is transmitted to the PBX 50. The call is then,

in step 124 handled by the PBX in a regular way. There is a further function in the system. The function can be used if it is clear,

after step 104, that the calling part is a WOS user. If the calling part dials the

mobile subscriber extension number (MSno.) to a WOS user and an external

prefix is used then the call is being sent back to the MSC by the Service Engine.

The service engine analyses the prefix, which has to be an external prefix,

which is registered in the Number Analyse Data 44 in the Service engine. The

Service Engine handles the call as a transit call. This is implemented by the

processor 42, under control of the software 41. The purpose is to route the call

directly to the cellular system instead of routing the call to the cellular system via

the PBX and the Public Network.

The Service Engine also makes it possible to connect a call to the mobile phone

of a WOS user. In figure 4 is described a method when a WOS user is receiving

a call, which is coming to the PBX. In step 130 a call is coming into the PBX

from the PSTN or from the PTN. The call can also be from an extension in the

PBX as well. The dialled number is the WOS number 30040 to the second

mobile phone MS2. In step 132 the incoming number is analysed and if the

number is a WOS extension the dialled number is being sent to the Service

Engine, which is described in step 134. Otherwise the call is connected in the

PBX in a regular way, which is described in step 133.

The WOS number sent to the Service Engine is in step 136 converted to the

corresponding mobile telephone number. In step 138 the converted mobile

telephone number is being sent to the MSC. In step 140 the MSC is connecting the call to the called mobile telephone. When the called Mobile telephone is

ringing in step 142, concurrently the corresponding deskphone is connected in

step 144. In order to obtain concurrent ringing the Service Engine waits until the

Mobile Telephone is ringing and when the mobile phone starts to ring the a call

is also being set up to the corresponding desk phone. Setting up a call to a desk

phone is often quicker process than setting up a call to a mobile phone.

Therefore the difference in time between start of ringing signals on the mobile

phone and on the desk phone is not noticable. What is described in step 136,

138, 140, 142 and 144 is done in a way similar to what is described in

connection with figure 3.

Claims

WHAT IS CLAIMED IS:

1. A method for making a call from a first mobile telephone (MS1) in a Wireless

Office Network (10), which network includes a base station (20), a Mobile

Switching Centre (30), a Service Engine (40) and a Privat Branch Exchange

(50), the Wireless Office Network (10) being connected to a Public Network (60)

and to a Cellular Network (70); the Service Engine (40) having mobile

telephones registered as Wireless Office System users, the method comprising

the following steps:

- dialling from the first mobile telephone (MS1) a desired telephone number

(desnum);

- transmitting the dialled telephone number (desnum) and the Mobile Telephone

number (Msnum) for the Mobile Telephone (MS1) to the Service Engine (40) via

the MSC (30);

- comparing in the Service Engine (40) the Mobile Telephone number (MSnum)

with the registered mobile telephone numbers and if the Mobile Telephone

(MS1) is a registered WOS user then the call is being handled by the Service

Engine (40) in the following steps:

-comparing in the Service Engine (40) the dialled number (desnum) and the

registered WOS numbers;

if the dialled number is a WOS number then

- converting the WOS number to the corresponding mobile telephone number; -setting up a telephone call directly to a second Mobile Telephone (MS2) having

the converted mobile telephone number via the Mobile Switching Centre (30);

otherwise

- transmitting dialled number (desnum) to the Privat Branch Exchange (50);

- analysing dialled number (desnum) in the Privat Branch Exchange (50) and

- setting up telephone call via the Privat Branch Exchange (50) to the dialled

telephone number (desnum).

2. A method according to claim 1 including that the first Mobile Telephone (MS1)

is not a registered WOS user:

- analysing in the Service Engine (40) if the desired number (desnum) is a WOS

number;

if the dialled number is a WOS number then

- transmitting the call to the WOS user otherwise

-transmitting the call to the cellular network (70) via the Mobile Switching Centre

(30).

3. A method according to claim 1 wherein the call is to a WOS user and the

Service Engine (40) is setting up the telephone call directly to the Mobile

Telephone (MS2) corresponding to the dialled number (desnum) via the Mobile

Switching Centre (30), the method including the following step:

- the Service Engine (40) concurrently connects the call to at least one

corresponding terminal, registered in the Service Engine (40).

4. A method according to claim 3 wherein the corresponding registered terminal

is a desk phone.

5. A method according to claim 1 wherein the WOS number being presented on

the called Mobile Telephone (MS2).

6. A method for receiving an incoming call in a first mobile telephone (MS1)

which is registered as a Wireless Office System user in a Wireless Office

Network (10), which network includes a base station (20), a Mobile Switching

Centre (30), a Service Engine (40) and a Privat Branch Exchange (50), the

Wireless Office Network (10) being connected to a Public Network (60) and to a

Cellular Network (70), the method comprising the following steps:

- incoming to the Private Branch Exchange (50) a call including a dialled

telephone number (numl);

- analysing in the Private Branch Exchange (50) the dialled telephone number

and

if the dialled telephone number (numl) is in the number plan for Wireless Office

System user then

- sending the incoming telephone dialled telephone number (numl) from the

PBX to the Service Engine (40);

- converting in the Service Engine (40) the Wireless Office user number (numl)

to the corresponding Mobile Subscriber Number (Msnum); - sending the Mobile Subscriber Number (MSnum) to the Mobile Switching

Centre (30);

- connecting from the Mobile Switching Centre (30) the incoming call to the

Wireless Office System user (MS1).

7. A method related to claim 6 including the steps of

- simultaneously with the connection of call to the Wireless Office System user

calling the corresponding terminal.

8. A method according to claim 6 wherein the called Wireless Office System

user (MS1) is within radio coverage of the Base Station (20) or within radio

coverage of the Cellular Network (70).

9. A Service Engine (40) for connecting a mobile phone (MS1) to a Privat

Branch Exchange (50) in a Wireless Office Network (10), which Wireless Office

Network (10) includes a base station (20), a Mobile Switching Centre (30), said

Service Engine (40) and said Privat Branch Exchange (50), the Service Engine

(40) includes the following parts:

- means for connections to the MSC;

- means for connections to the PBX;

- a register for storing a Wireless Office System user data and the

corresponding mobile telephone number (MSnum) ; - processor means, operative under the control of a program, for converting a

Wireless Office System user number (WOSnum) to the corresponding Mobile

Telephone number (Msnum) when a call is being made to a Wireless Office

System user and the dialled number is a Wireless Office System user number.

10. A Service Engine (40) according to claim 9 wherein the register includes

information on Desk phones connected to the Wireless Office System users.

11. A Service Engine (40) according to claim 9 wherein the register includes

information on a voice mail number connected to the Wireless Office System

users.

12. A Service Engine (40) according to claim 9 wherein the register includes

information on a Personal Profile related to the Wireless Office System user.

13. A Service Engine (40) according to claim 9 in which the mentioned

processor means are operative under the control of the program for converting

the mobile telephone number to the WOS number for presentation of the WOS

number on the called terminal.