WO1995023485A1 - Multi-mode communications system - Google Patents

Abstract

A multi-mode communication system including a hand-held phone module (11) and incorporating a base unit (10) allowing selection of multiple operational modes. The system allows a user to select from at least two different network communication protocols and standards (i.e. cellular, trunking, cordless, DGPS, etc.). The hand held phone module and the base unit can be a single handset. Mode selection can be either automatic or manual.

Description

MULTI-MODE COMMUNICATIONS SYSTEM FIELD OF THE INVENTION

The present invention relates to multi-mode communications systems and, more particularly, to such systems incorporating a hand held means of control. BACKGROUND ART

There exists today many competing forms of communication systems ranging from cellular mobile telephones through trunking radio systems and on to more specialised forms of network such as the DGPS network and the CTl , CT2 , CT3 or DECT systems.

It is an object of the present invention to provide hand held access to more than one of these systems via a single hand held unit. DISCLOSURE OF THE INVENTION

Accordingly, in one broad form of the invention, there is provided a multi-mode communications system including a hand held phone module and incorporating means allowing selection of one from a multiple of available modes of operation.

Preferably, the modes of operation comprise different forms of network communications protocols and standards.

In a preferred form of the invention, the communications protocols and standards are selected from: cellular telephone (all standards including but not limited to GSM, E-GSM, P-GSM, PCM, AMPS, ETACS, NMT450) ; trunking radio system (TRS); DGPS network; cordless localised access networks including CTl, CT2 , CT3 and DECT. Preferably said means allowing selection comprises a base unit in communication with said hand held phone module. Preferably said base unit includes a system controller adapted for communication with at least a keypad portion of said hand held phone module. In one particular form of the invention the system controller communicates with said keypad portion via a serial interface. In an alternative preferred form said system controller communicates with said keypad via a cordless communication protocol selected from CT1/CT2/CT3 and DECT. Preferably communications between said system controller and said keypad are at relatively low power and said base unit incorporates booster means for Issuing a high power communications signal.

In a particular preferred form said base unit is incorporated within said hand held phone module. In a further particular preferred form the modes of operation thereof are limited to selection between cellular phone and trunked radio.

BRIEF DESCRIPTION OF THE DRAWINGS Embodiments of the invention will now be described with reference to the accompanying drawings wherein:-

Fig. 1 is a block diagram of a base unit and handset according to a first embodiment of the invention, Fig. 2 is a diagram of the base unit and handset of Fig. 1 in a first mode of operation, Fig. 3 is a diagram of the base unit and handset of Fig. 1 according to a second mode of operation, Fig. 4 is a diagram of the base unit and handset of Fig. 1 according to a third mode of operation, Fig. 5 is a diagram of the base unit and handset of Fig. 1 according to a fourth mode of operation, Fig. 6 is a diagram of at least portions of a base unit and handset incorporated into a single casing in accordance with a second embodiment of the invention, Fig. 7 is a block diagram of a base unit according to a third embodiment of the invention, Fig. 8 is a block diagram of a hand set usable with any embodiment of the invention,

Fig. 9 is a logic diagram of the operation of the hand set of Fig. 8, Fig. 10 is a block diagram of a further example of the invention, Fig. 11 is a block diagram of a further example of the invention, Fig. 12 is a block diagram of a further example of the invention, and Fig. 13 is a logic diagram of an automatic switchover system. MODES FOR CARRYING OUT THE INVENTION

A multi-mode communication system according to a first embodiment of the invention comprises a base unit 10 in communication with a handset 11.

The base unit 10 includes system controller 12 in bidirectional communication with a cellular phone booster 13, a trunking radio booster 14, a trunking RF/digital MPT 1327 module 15, a cellular modem/paging module 16, a DGPS module 17, CT1/CT2/CT3 interface module 18 and display 19. Aerial 20 transmits/receives signals for either one of cellular phone booster 13 or trunking radio booster 14. One or other booster is switched for communication with aerial 20 by means of electronic switch 21. In an alternative form each booster has its own dedicated aerial (not shown) .

It will be appreciated that the various modules will produce signals for transmission/reception on antenna 20 according to different formats and protocols and often for transmission/reception on different carrier frequencies. It is the task of system controller 12 to switch the different modules into operation according to the needs of an operator of handset 11 as communicated from the keypad 22 of the handset 11. The handset 11 can comprise a cellular phone handset and cradle 11A or a cordless handset 11B. In this instance, the cellular phone and cradle combination 11A can communicate with system controller 12 via a plug-in wire link communicating with a serial interface port 23 on the cellular phone.

The cordless handset 11B communicates with system controller 12 via the CT1/CT2/CT3 interface 18. In either case, in use, an operator of the handset 11 communicates a desired mode of operation to system controller 12 by depressing appropriate function keys on keypad 22. The mode selected can be confirmed to the user by display of an appropriate message on a display 24 associated with the keypad 22 on the handset 11. The intention is that the communications link 25 from handset 11 to system controller 12 is or need only be a low power, short range link.

Furthermore, in a particular implementation, the handset 11 comprises a cellular telephone handset adapted for operation, on the cellular telephone network without utilisation of communications link 25. However, where a boosted communications signal in cellular telephone mode is required or where it is required to communicate in a mode other than cellular telephone mode - for example on the trunked radio system then the communications link 25 is utilised to communicate to systems controller 12 via keypad 22 the desired mode of operation. In this mode of operation the cellular phone uses the base unit 10 as a local relay station. Exemplary modes of operation of the communications system according to a first embodiment of the invention will now be described with reference to Figs. 2, 3, 4 and 5.

In a first mode of operation as illustrated in Fig. 2 a normal cellular telephone is used to provide a hands free cellular phone with optional power amplifier booster in the form of base unit 10. The DGPS module 17 and cellular modem 16 can also be brought into operation via system controller 12 to provide positional information to a user of handset 11. With reference to Fig. 3 a second mode of operation is illustrated where a normal cellular telephone is used as handset 11 to provide communication with the trunked radio system. Hands free operation is possible utilising the hands free mode, where provided, on the cellular telephone. Again, the DGPS module 17 can be connected into the system to provide positional information. The system can be either duplex or simplex in operation.

Fig. 4 illustrates a third mode of operation wherein the handset 11 comprises a cellular phone switchable to trunking radio mode by operation of appropriate function keys on keypad 22. In this case the trunking radio booster 14 is switched into circuit to provide power amplification whilst the DGPS module 17 is utilised to provide position information for display on display 24.

Fig. 5 illustrates a fourth mode of operation wherein handset 11 is implemented as a cordless mobile telephone handset in cordless communication with system controller 12 via a CT1/CT2/CT3 interface 18. Once again, the cordless handset can operate as a cellular mobile telephone or alternatively it can communicate with system controller 12 so as to provide access to the trunked radio network in either the duplex or simplex mode. In its most straightforward implementation the handset 11 is implemented as a conventional cellular telephone handset incorporating software modifications which permit communication via a serial interface port 23 or via a CT1/CT2/CT3 interface module 18 with a locally located system controller within a base unit 10. In this manner the cellular phone can operate normally as a cellular phone or alternatively can provide access to the facilities incorporated within base unit 10, most preferably at least including a trunked radio module 15 with trunking radio booster 14.

With reference to Fig. 6 selected portions of the base unit 10 illustrated and described with reference to Fig. 1 can be incorporated within a cellular telephone casing to provide a. single hand held dual mode communications device adapted for communication with either the cellular telephone network or with the trunked radio network.

In the embodiment illustrated in Fig. 6 a mobile telephone casing 26 incorporates the conventional components of a cellular telephone 27 together with the relevant components from base unit 10 which provide access to the trunked radio network including trunking RF/digital MPT1327 module 15 and trunking radio booster 14. In this manner dual mode cellular telephone and trunked radio network mode operations are provided within the one hand held phone module. Other elements from base unit 10 can be incorporated including CT1/CT2/CT3 or DECT interface module 18 allowing operation of the hand held phone module in CT1/CT2/CT3 or DECT mode as well.

With reference to Fig. 7 a base unit 110 according to a third embodiment of the invention is illustrated in block diagram form. The modules within the base unit 110 include the following:

(i) Cellular Phone Module III meeting one or more of the following standards - GSM, E-GSM, P-GSM, PCN, AMPS, ETACS, NMT450, CDMA. The digital board and RF board for the cellular phone will be included in the radio system. Interface to the digital board is via an external communications interface, for controlling call setup and receive, (ii) DGPS module 112 - The DGPS module provides geodetic information at the multi-mode radio system, for use either by the multi-mode radio system or at a remote location. The DGPS module may accept DGPS correction information to provide higher accuracy. (iϋ) Trunking Radio module 113 meets the MPT1327 or any other standard for trunking radio. The trunking radio module includes the RF and digital sections of an MPT1327 trunking radio. Interface to the trunking radio module may be via an external communications interface for controlling call setup and receive, (iv) Trunking Radio booster 114. The trunking radio booster module may be used to amplify the MPT1327 trunking radio signal to increase the range and reception of the trunking radio module.

(v) Cellular Phone booster 115. The cellular phone booster module may be used to amplify the cellular phone signal to increase the range and reception of the cellular phone module. The data communication between the modules in the multi-mode radio system module of Fig. 7 may be via a serial communication protocol or a parallel communication protocol. An audio interface may also be connected between the system controller, cellular phone module, trunking radio module and cordless communication base station.

A serial interface may be provided to the DGPS module 112 to allow information to be passed to and from the DGPS module and the system controller and other communications modules.

A data interface and an audio interface may be connected between the system controller and the paging module to allow both data messages and audio messages to be passed from the paging module to the system controller.

A data interface and an audio interface may be connected between the system controller and the cordless communication base station to allow call setup information (data) , keypress information (data) , LCD display information (data) and audio to be passed between the cordless communication base station and the system controller.

In addition the base unit 110 includes a paging module 116, a cordless communication base station 117 (CTl, CT2, CT3, DECT or similar) and a cellular modem 118, all in communication with system controller 119.

The manner of operation of the base unit 110 is the same as that in respect of the base unit 10 according to the first embodiment of the invention.

The base unit 110 can be utilised in conjunction with a handset as previously described so as to operate in at least two modes of operation as follows -. -

In a first mode the handset is used to select cellular telephone operation. That call is then initiated by the user with the handset. The system controller in the multi-mode radio system controller switches the audio and data interface to the cellular phone module within the system. A call is then initiated over the cellular phone communication protocol to the public network. The cellular phone booster may be used to increase the gain of the signal transmitted. The DGPS module and cellular modem may also be used to pass geodetic information across the cellular network. The cellular phone communication protocol may be compliant to one of the following standards, AMPS, ETACS, GSM, CDMA, TDMA, DCS-1800, NMT450.

In a second mode of operation the handset is utilised to select trunking radio operation whereby the trunking radio module 113 in the base unit 110 is utilised to enable communications over a trunking radio network, for example, compliant to MPT1327.

As earlier described with reference to Fig. 6 it is possible to incorporate at least portions of a base unit and handset into a single casing. A dual mode handset 121 operable according to the block diagram of Fig. 8 will now be described.

The dual mode handset 121 can incorporate technology from any two of the following communication protocols:GSM, MPT1327, Trunking Radio, AMPS, ETACS, TDMA, CDMA, PCN, CTl, CT2, CT3, DECT.

With the advent of cordless office applications and constant contactability demands, there is a requirement for a single handset that offers the flexibility of addressing the requirements for more than one communications protocol .

The different communications protocols offer a variety of applications. For example the trunking radio system is typically associated with fleet and industrial applications. The GSM, AMPS, ETACS, TDMA and CDMA networks, are typically focused towards the business, corporate and consumer markets. The CTl , CT2 and CT3 technologies are most commonly associated with cordless office applications. These ^requirements often overlap so there exists an application for ___ handset that services more than one of these requirements. The dual mode handset 121 of Fig. 8 comprises a mode 1 digital module 122 and a mode 2 digital module 123. Each module is adapted to operate according to a particular, but different communications protocol or "mode" as compared with the other module 122, 123. The handset 121 additionally includes an RF portion 124 specific to mode 1 and an RF portion 125 specific to mode 2. Both these RF portions are driven from a generic radio frequency module 126. In addition the handset includes a display 127, a keypad 128, and memory peripherals 129. The components 127, 128 and 129 are common to both modes of operation of the handset 121. The first mode of the handset may be any of the above mentioned technologies. The second mode of the handset may also be any of the above mentioned technologies.

The radio frequency modules of the two modes may be partially or wholly combined to reduce the required circuitry for the handset.

Separate digital modules may be maintained to ensure correct operation of the handset under each mode. The digital module of each mode, may include a microprocessor and any integrated circuitry specific to the mode of operation i.e. Channel coder/decoder for a GSM digital module.

The handset may change modes from one mode to the other by specified functions on the keypad, or by the selection of one of a number of menu functions.

The necessary software for both the modes of operation will be contained in the one handset. Some portions of software may be common to both the modes including the man machine interface, and the software for the control of common hardware components.

The handset may dynamically switch a call made in one mode to the second mode, by holding the current call until the call is re-established, using the second mode. Alternatively, the handset may cancel the first call and automatically re-establish using the second mode. The handset may accept specified incoming call messages indicating that a second dual mode handset is currently switching mode.

The manner of operation of the dual mode handset 121 is generally in accordance with that described in respect of Fig. 6. A detailed logic flow diagram of the automatic switchover operation is provided in Fig. 9 where mode 1 operation is defined as CT2 operation and mode 2 operation is defined as GSM operation. It will be appreciated that these modes are merely exemplary and other operational modes, as earlier listed, can be utilised in substitution for either the CT2 or GSM modes of operation.

The controllers incorporated in the embodiments of the invention described thus far can include additional software or logic which permits monitoring of signal strength and the like for the purpose of initiating compensating action. In its simplest form as previously described a booster can be switched in. In a more complex form as to now be described in more detail a switchover between modes can be performed. With reference to Fig. 13 a call may be being carried in "mode 1" to handpiece 211. Logic within system controller 212 monitors changes in signal strength and the like. A reduction in signal strength can be interpreted as a failure condition or the approach of a failure condition whereupon controller 212 will initiate a separate call to the same number in an alternative mode of operation (in this case "mode 2"). If the mode 2 call is successful then controller 212 simply transfers the connection of handpiece 211 across to the mode 2 connection and disconnects the mode 1 connection. Corresponding monitoring is done of the mode 2 connection and, should a failure condition be detected then a corresponding attempt will be made to reinitiate a mode 1 connection and transfer.

Alternatively a user, via the keypad 213 can initiate a request for transfer of mode.

Figs. 10, 11 and 12 provide particular examples of this automatic switchover facility.

Fig. 10 is a block diagram of another method of the invention using a trunking radio module to invoke communications over a trunking network compliant to MPT 1327 and/or APC 025 when finalised or becomes a standard but not limited to those standards. The cordless or corded handset 150 communicates with controller 212. If the user is on the AMPS cellular network and the network no longer has good cover due to the lack of cells or no cells being available, the handset will automatically redial the number and make connection. As an alternative, the controller 212 will identify the signal weakening and redial, hold the call and connect seemlessly via the trunking network if available. Fig. 11 is a block diagram of another method of the application of the automatic switchover facility in which the subscriber is communicating via the CT2 cordless mode as the subscriber moves out of range. The CT2 handset has the capability of changing mode from CT2 to the GSM network in the manner described with reference to Fig. 9. The handset and/or the controller 212 will hold the call whilst redialling and reconnecting the two calls seemlessly as described with reference to Fig. 13. A special code may be transmitted to allow the previous call to be rerouted prior to the handset accepting new calls.

Fig. 12 is a block diagram of a further application of the automatic switchover facility which allows the subscriber to initiate a change from the CT2 mode to, say, the GSM mode by pressing a function button and the handset controller which will automatically dial up the GSM network and re-route the two calls seemlessly. The re-routing will also carry special identification allowing the base unit or handset at the other end to know it is a re-routed call and to accept the call. INDUSTRIAL APPLICABILITY

The invention is applicable in the fields of wireless and mobile telecommunications.

Claims

1. A multi-mode communications system including a hand held phone module and incorporating means allowing selection of one from a multiple of available modes of operation.

2. The system of claim 1 wherein said modes of operation comprise different forms of network communications protocols and standards.

3. The system of claim 2 wherein said communications protocols and standards are selected from: cellular telephone (all standards including but not limited to GSM, E-GSM, P-GSM, PCM, AMPS, ETACS,

NMT450); trunking radio system (TRS);

DGPS network; cordless localised access networks including CTl, CT2,

CT3;

4. The system of any previous claim wherein said means allowing selection comprises a base unit in communication with said hand held phone module.

5. The system of claim 4 wherein said base unit includes a system controller adapted for communication with at least a keypad portion of said hand held phone module.

6. The system of claim 5 wherein said system controller communicates with said keypad portion via a serial interface.

7. The system of claim 5 wherein said system controller communicates with said keypad via a cordless communication protocol selected from CT1/CT2/CT3 or DECT.

8. The system of claim 5 or 7 wherein communications between said system controller and said keypad are at relatively low power and said base unit incorporates booster means for issuing a high power communications signal.

9. The system of any one of claims 4 to 8 wherein said base unit is incorporated within said hand held phone module.

10. The system of any one of claims 3 to 9 wherein the modes of operation thereof are limited to selection between cellular phone and trunked radio.

11. The system of any previous claim wherein said system is housed within a single enclosure.

12. The system of any previous claim incorporating an automatic switchover facility (as defined in the specification) .

13. A dual mode handset adapted to be switched by a user between two modes of operation.

14. The handset of claim 1.3 wherein said modes of operation are selected from GSM, MPT1327, Trunking Radio, AMPS, ETACS, TDMA, CDMA, PCN, CTl, CT2, CT3, DECT.

15. The handset of claim 13 or claim 14 incorporating an automatic switchover facility.