Patent Document

BACKGROUND OF THE INVENTION 
     The present invention relates to a radio telephone. In particular, the invention relates to a radio telephone including a headset with a user actuable switch. 
     Radio telephones are known to operate with headsets which may be plugged into the handset of the radio telephone to provide a handsfree talking facility. For example, the NOKIA® 8110 Handportable Cellular Phone available from Nokia Mobile Phones Ltd. may operate using the NOKIA HDXK-8 Headset. This headset is shown in FIG.  1  and includes an in-ear speaker  10 , an in-line microphone  11 , a lead  12 , a crocodile clip  13  for securing the lead  12  to an item of clothing, and a connector  14  for plugging into a jack on the adaptor  15 . The adaptor  15  has a connector  16  for connecting the headset to the system connector of a NOKIA 8110 Phone. 
     SUMMARY OF THE INVENTION 
     An object of the present invention is to provide an improved user interface for a radio telephone incorporating a headset. 
     According to a first aspect of the present invention there is provided a portable radio telephone comprising a headset having a user actuable switch and a microphone for receiving voice information from a user, and selection means, responsive to information input by a user via both the switch and the microphone, for selecting one of a plurality of telephone numbers stored in the radio telephone. 
     A portable telephone in accordance with the invention may have an advantage that it allows a user to select telephone numbers for dialling using the switch and microphone of the headset without having to view a display and/or operate a keypad on the radio telephone handset. A user can thus select and dial telephone numbers conveniently using the headset even when another part of the radiotelephone is out of reach or not easily accessible. Furthermore, a radiotelephone in accordance with the invention may allow a user to select a telephone number and initiate a call in situations where conventional use of a handset would be inconvenient, such as when walking in a busy street. 
     According to a second aspect of the present invention there is provided a portable radio telephone comprising a headset having a user actuable switch and a microphone for receiving voice information from a user, and generating means, responsive to information input by a user via both the switch and the microphone, for generating in the radio telephone information relating to a telephone number. 
     A portable telephone in accordance with the invention may have an advantage that it allows a user to generate in the telephone information relating to a telephone number using the switch and microphone on the headset without having to operate a keypad or other user input device on a radio telephone handset. A user can thus generate information relating to telephone numbers conveniently using the headset even when another part of the radiotelephone is out of reach or not easily accessible. 
     A radio telephone in accordance with the first and/or second aspects of the invention may dispense with the conventional keyboard and/or display typically found on a radio telephone handset. Instead, the functions of the keypad and/or display may be provided by the headset. 
     Ideally, the radio telephone comprises a main body portion, and the selection or generating means may be located in this main body portion. 
     The headset may comprise a lead for coupling the headset to the main body portion. Ideally, the switch is positioned on this headset lead, with the lead providing the electrical coupling between the switch and the selection or generating means. 
     The microphone may also be positioned on the lead, with the lead ideally electrically coupling the microphone to the selection or generating means. 
     Preferably, the lead is detachable from the main body portion. This may allow the headset to be unplugged from the main body portion and stored when not required. 
     Preferably, the switch is a push button. This may provide the advantage of allowing a user to discreetly and/or repeatedly activate the switch. Other forms of switch could also be used such as a toggle switch or a sliding switch. 
     Suitably the headset further comprises an earpiece or speaker, allowing a user to perform two-way communication via the headset. 
     To provide a comfortable and discreet headset, it is possible for the earpiece to be an in-ear style earpiece. 
     Suitably, the main body portion of the radio telephone contains a transceiver and is in the form of a handset comprising a separate earpiece and microphone. 
     Preferably, the selection and/or generating means include speech recognition means for recognising speech information input via the microphone. The speech recognition process may decipher words or numbers based on comparisons with speech patterns stored in the radiotelephone. These speech patterns may be embedded in the microprocessors of the telephone during production and/or may be recorded in re-writable memory by a user. 
     The generating means may generate digits of a telephone number in response to information input by a user via the switch and microphone. Alternatively, the generating means may generate a voice tag for storing in the telephone in association with a telephone number. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     Embodiments of the invention will now be described, by way of example, with reference to the accompanying drawings, in which: 
     FIG. 1 is a perspective view of a prior art NOKIA HDXK-8 Headset; 
     FIG. 2 is a view of a portable radiotelephone in accordance with the invention with the headset positioned on a head of a user; 
     FIG. 3 is a schematic diagram of the keypad, microprocessor, and major functional elements of the handset of FIG. 2; 
     FIG. 4 is a flowchart showing how a telephone number may be selected using the button and microphone of the headset shown in FIG. 2; 
     FIG. 5 is a flowchart showing how a telephone number may be selected using the button, microphone, and earpiece of the headset shown in FIG. 2; 
     FIG. 6 is a flowchart showing how a telephone number may be selected using the button and earpiece of the headset shown in FIG. 2; 
     FIG. 7 is another flowchart showing how a telephone number may be selected using the button and earpiece of the headset; 
     FIG. 8 is a flowchart showing how a selected telephone number may be called and how the call may be ended using the button of the headset shown; 
     FIG. 9 is a table showing information stored in memory locations  1  to  4  in the handset of FIG.  2 . 
    
    
     DETAILED DESCRIPTION OF THE INVENTION 
     Referring to FIG. 2, there is shown a portable radiotelephone comprising a telephone handset  30  and a headset  40 . The telephone handset  30  is a handportable cellular phone powered by a removable rechargeable battery pack  27 . The handset  30  includes an antenna  34  coupled to a transceiver unit, a microphone  32 , a speaker  31 , and all the other features conventionally found in a cellular phone. Referring also to FIG. 3, a microprocessor  100  is employed to control all the basic functions of the handset and to control the keypad, display and headset functions. Alternatively, however, the telephone functions may be controlled by a master microcomputer, while the keypad, display and headset functions are under the control of separate slave microcomputers coupled to communicate with the master microcomputer. 
     The user-interface of handset  30  comprises a display, e.g. a liquid crystal display  29 , itself well-known in the art and a keypad  28  on the front of the handset  30 . The display is coupled to and regulated by the microprocessor  100  in the usual manner. The keypad  28  essentially comprises two main sets of keys, namely alpha-numeric keys  28   a  associated with alpha-numeric data especially for dialling telephone numbers, but also for entering alphanumeric data into the telephone memories; and a set of function keys  28   b  for enabling various predetermined functions or operations. 
     The keys  28   a  are arranged in four rows of three keys each. As is conventional for the numeric key layout of a telephone, the top row comprises keys for numbers  1 ,  2  and  3  respectively, the second row down for numbers  4 ,  5  and  6  respectively, the next row down for numbers  7 ,  8  and  9  respectively, and the bottom row for *, 0 and # respectively. Some or all of these keys may also be associated with alphabet information, as again is quite conventional. The alphabetic rather than numeric data is selected for example by preceding the alphanumeric keystrokes with another predetermined keystroke such as the “ABC” function key. 
     As is usual in cellular telephones, the keys  28   b  include a “SEND” and “END” key for respectively initiating and terminating a telephone call. Another key, specifically located in the top left-hand corner is an “ON/OFF” key for turning the telephone on and off. Another of the function keys may be a menu or function key labelled, for example, “MENU” or “FUNCTION” or with a suitable abbreviation thereof. Depression of this key enables a variety of pre-set menus, the related instructions of which are stored in memory, to be viewed on display  29  and selectively enabled. The various menus may be selected by depressing the appropriate alphanumeric keys after depressing the “MENU” or “FUNCTION” key. The relevant menu is shown to the user in words or abbreviations on the display panel  29 . For example, the user may be able to select the ringing tone by appropriate menu selection. More sophisticated options may also be available via the menu facility. For example, the user may be able to enable the so-called Automatic Redial mode which repeats a call attempt if a telephone number is busy or there is no answer. In accordance with the present invention special menu facilities are provided to permit manual selection of various headset modes. Any predetermined sequence of keystrokes may be employed to select the respective menus which may display legends such as “HEADSET DIALLING” or “HEADSET NUMBER GENERATION” on the display panel  5 . 
     The headset  40  shown in FIG. 2 includes two earpieces  20 , and a microphone  21  positioned at the end of a boom. A lead  22  joins the earpieces  20  and the microphone  21  to a connector  24 . Located part way along the lead is a push button switch  33  which is conveniently positioned for activation by a user&#39;s thumb or finger. The connector  24  plugs into a headset jack on the telephone handset  30  which in turn is electrically coupled via a suitable headset interface  200  to the microprocessor  100 . The lead  22  provides electrical coupling between the connector  24  and the earpieces  20 , the microphone  21 , and the switch  33  of the headset  40 . Consequently, when the headset  40  is plugged into the handset  30  the earpieces  20 , the microphone  21 , and the switch  33  become electrically coupled to microprocessor  100 . The headset  40  may be unplugged from the handset  30  when not required. 
     To assist a user in recalling telephone numbers for subsequent dialling, the handset  30  contains a non-volatile memory such as an EEPROM memory  300  coupled to the microprocessor enabling a user to store in the radiotelephone  30  information relating to those telephone numbers. The EEPROM stores the information in a database format with each record containing information relating to a particular telephone number. Other forms of non-volatile memory, for example flash memory or battery backed-up RAM, could be used instead of the EEPROM. FIG. 9 is a table showing four records or memory locations in the EEPROM memory of the handset. Each memory location contains a voice tag, a name, and a telephone number. The voice tag is recorded as a sound waveform which is typically a sample of the user&#39;s voice received by the microphone  32 . This waveform may be replayed by a speaker of the radiotelephone. The name and telephone number may be entered into the EEPROM memory by a user via the alphanumeric keys  28   a  of the keypad  28  as is conventional. 
     The radiotelephone provides a feature whereby a user may generate using the headset the voice tags, names, and/or telephone numbers for subsequent storage in the EEPROM. This feature may be selected from the menus of the radiotelephone by the user operating the keypad  28  in the usual way. Following selection of this feature the user presses the button  33  on the headset and may be prompted by a sound or voice in the earpiece  20  to speak the voice tag into the microphone  31  of the headset. The voice input is received by the microprocessor via the headset interface  200  and is recorded as a voice tag in the next available memory location of the EEPROM. The button  33  on the headset is then used to confirm the voice tag input. Next the user enters the name and the telephone number into the microphone  31  in a similar way to complete the entry in the memory location. The microprocessor is conditioned with a speech recognition algorithm for deciphering the name and telephone number from the name and telephone number voice waveforms entered into the microphone  31 . After completing an entry into the EEPROM via the headset, the radiotelephone may optionally replay the entry to the user automatically via the earpiece  20  using a voice synthesiser. Further entries may also be input into the EEPROM. 
     The radiotelephone also provides a feature whereby a user may generate a telephone number and subsequently dial the telephone number using the headset. With this feature selected in the handset, the user presses the button  33  on the headset and may be prompted via a sound or voice in the earpiece to speak the telephone number which the user wishes to dial. The user&#39;s voice input is then received by the microphone  21  and is processed using the microprocessor, suitably conditioned with a speech recognition algorithm, to generate the telephone number in the radiotelephone. The telephone number generated by the speech recognition may be replayed to the user via the earpiece using a voice synthesiser. A long press of the button on the headset by the user is then used to initiate dialling of the generated telephone number. 
     A radiotelephone may provide various methods for a user to select and then dial telephone numbers stored in the radiotelephone. Preferred methods for selecting a telephone number are shown in the flowcharts of FIGS. 4 to  7 . These methods generally depend on voice tags and telephone numbers being previously stored in the memory of the radio telephone. The preferred method for dialling selected telephone numbers is shown in the flowchart of FIG.  8 . Each of the selection flowcharts of FIGS. 4 to  7  proceed to the dialling flowchart of FIG. 8 (see label A). 
     Referring to the selection flowchart in FIG. 4, the first step  41  requires the microprocessor to detect whether the button on the headset has been pressed. This first step is common to all the flowcharts of FIGS. 4 to  7 . In step  42  the user speaks into the microphone  21  the voice tag associated with the telephone number the user wishes to dial. In step  43  the microprocessor compares the waveform input by the user with all the voice tag waveforms stored in the EEPROM and selects the voice tag with the best waveform match. The telephone number stored in the same memory location as the best matching voice tag is then recalled from the EEPROM. 
     The preferred method for comparing waveforms input by the user and the waveforms stored in the EEPROM involves identifying or extracting unique characteristics associated with the waveforms. Comparison of these unique characteristics is then performed to determine the waveforms with the best match. The unique characteristics are chosen so that they are substantially independent of the amplitude and length of the waveforms, enabling consistent matching of waveforms even when, for example, a user speaks a name quietly or slowly. In speech recognition the same unique characteristics of the input waveforms may be extracted to determine what words were spoken. 
     Referring now to the selection flowchart in FIG. 5, steps  51  and  52  are equivalent to steps  41  and  42  in the flowchart of FIG.  4 . In step  53  the microprocessor compares the waveform input by the user with all the voice tag waveforms stored in the EEPROM and selects the voice tag with the best waveform match. The voice tag with the best match is then output through the earpiece  20  of the headset. The user now has three options represented by the steps  54  and  55 . The first option for the user is not press the button on the headset whereby the selection is timed out, see step  56 . The second option for the user is a short press of the button on the headset. This invokes step  57  whereby the microprocessor compares the waveform input by the user with all the voice tag waveforms stored in the EEPROM and selects the voice tag with the next best waveform match. The voice tag with the next best match is then output through the earpiece  20  of the headset and the user once again has three options represented by the steps  54  and  55 . The third option for the user is a long press of the button on the headset whereby step  58  is performed, i.e. the telephone number stored in the same memory location as the last voice tag output is recalled from the EEPROM. 
     Referring now to the selection flowchart in FIG. 6, step  61  is equivalent to steps  41  in the flowchart of FIG.  4 . In step  62  the microprocessor retrieves the voice tag stored in the first memory location in the EEPROM and outputs the first voice tag through the earpiece of the headset. The user now has three options represented by the steps  64  and  65 . These options are equivalent to the user options represented by the steps  54  and  55  in the selection flowchart of FIG.  5 . However, when the user selects the second option, i.e. a short press of the button on the headset, step  67  is invoked whereby the microprocessor retrieves the voice tag stored in the next memory location in the EEPROM and outputs this voice tag through the earpiece of the headset. Then the user once again has three options represented by the steps  64  and  65 . Thus a user may scroll sequentially through the voice tags until the desired one is output through the earpiece. When the desired voice tag is output the telephone number stored in the same memory location as the last voice tag output may be recalled from the EEPROM by a long press of the button. 
     Referring now to the selection flowchart in FIG. 7, steps  71  and  72  are equivalent to steps  61  and  62  in the flowchart of FIG.  6 . In step  73  the user may choose to accept the last voice tag output by the earpiece  20  by pressing the button within an allotted period of time, for example two seconds. If the user does not choose to accept the last voice tag by pressing the button then the flowchart proceeds to step  74  whereby the microprocessor retrieves the voice tag stored in the next memory location in the EEPROM and outputs this voice tag through the earpiece of the headset. The process then returns to step  73  at which point the user may choose to accept the last voice tag output as before by pressing the button. Thus the voice tags stored in the EEPROM are scrolled automatically and sequentially by the microprocessor until the desired one is accepted by the user. When the user accepts a voice tag the telephone number stored in the same memory location as the voice tag is recalled from the EEPROM by the microprocessor, see step  75 . Optionally, the user may press the button for a long period in order to cancel the automatic scrolling of the voice tags. 
     In the selection flowcharts previously described a telephone number is typically recalled from the EEPROM. Once this has been achieved the telephone number may be dialled automatically by the radio telephone as shown by step  81  in the flowchart of FIG.  8 . Steps  82  and  83  show how a user may end the call by pressing the button on the headset. 
     The present invention includes any novel feature or combination of features disclosed herein either explicitly or any generalisation thereof irrespective of whether or not it relates to the claimed invention or mitigates any or all of the problems addressed. 
     In view of the foregoing description it will be evident to a person skilled in the art that various modifications may be made within the scope of the invention.

Technology Category: 5