Automatic answering method for a vehicle radio-telephone and device therefor

US 5,058,150 A
Filed: 05/25/1989
Issued: 10/15/1991
Est. Priority Date: 02/28/1989
Status: Expired due to Term

First Claim

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1. In a vehicle radio-telephone having an antenna, a receiving audio circuit and a transmitting audio circuit, an automatic answering device comprising:

duplexer means operably connected with said antenna for permitting common use of said antenna for both transmitting and receiving;

radio transmitter means operably connected with said duplexer means for transmitting, as radio frequency signals, voice signals input thereto, said radio transmitter means being operably connected with said duplexer means;

radio receiver means for receiving, as radio frequency signals input thereto, voice and dual tone multi-frequency (DTMF) signals, said radio receiver means being operably connected with said duplexer means;

voice analyzing and synthesizing circuit means operably connected with an output of said radio receiver means for analyzing and synthesizing, by an adaptive delta modulation (ADM) process, voice signals received from said radio transmitter means, for selectively recording and reproducing received radio-telephonic voice signals;

wide band data (WBD) modem means operably connected with an output of said radio receiver means for decoding and digitizing received radio-telephonic DTMF signals;

first adder circuit means operably connected with an output of said radio receiver means and an output of said voice analyzing and synthesizing circuit means and also with an input of said receiving audio circuit, for adding reproduced voice signals output by said voice analyzing and synthesizing circuit means and voice signals received by said radio receiver means to produce a voice signal output in accordance therewith to said receiving audio circuit;

voice synthesizing circuit means containing, in discrete stored digital data form, first, second and third answering messages each corresponding to a respective answering mode of said automatic answering device, for selectively reproducing said first through third answering messages as voice signals by a linear predictive coding (LPC) voice synthesis procedure;

second adder circuit means operably connected with an output of said voice synthesizing circuit means, an output of said transmitting audio circuit and an input of said radio transmitter means, for adding synthesized voice signals output by said voice synthesizing circuit means and voice signal outputs of said radio transmitter means for producing a voice signal output in accordance therewith to said radio transmitter means for radio-telephonic transmission; and

controller means operably connected with said voice analyzing and synthesizing circuit means, said WBD modem means and said voice synthesizing circuit means, for controlling the voice synthesis and outputting of one of said first through third answering messages by said voice synthesizing circuit means corresponding to one of a first, second and third selectable answering modes, andin said first selectable answering mode, for controlling said voice synthesizing circuit means to synthesize said first answering message for informing a caller of a called party'"'"'s absence and of a telephone number at which the called party may be called;

in said second selectable answering mode, for controlling said voice synthesizing circuit means to synthesize said second answering message for informing the caller of the called party'"'"'s absence and requesting the caller to successively input DTMF key signals representing the caller'"'"'s telephone number followed by a first DTMF key signal, and upon receiving from said WBD modem means, as a decoded and digitized signal, said DTMF telephone number signals and first DTMF key signal input by the caller in response to said second answering message, for storing the caller'"'"'s input telephone number; and

in said third selectable answering mode, for controlling said voice synthesizing circuit means to synthesize said second answering message for informing the caller of the called party'"'"'s absence and requesting the caller to input a second DTMF key signal for permitting the caller to leave a voice message, and upon receiving from said WBD modem means, as a decoded and digitized signal, said second DTMF key signal input by the caller in response to said third answering message, for controlling said voice analyzing and synthesizing circuit means to record the caller'"'"'s voice message.

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Abstract

An automatic answering device for a vehicle radio-telephone has a voice synthesizing circuit for synthesizing and delivering three different selectable digitally stored answering messages to callers, and a voice analyzing and synthesizing circuit for electronically processing and recording incoming messages from callers. Three modes of answering can be selected by the user and are performed under microprocessor control, for announcing only and informing callers of a number to call, for requesting callers to input DTMF key signals for representing the caller'"'"'s telephone number, and for recording a caller'"'"'s voice message. For each of the three modes, a different appropriate answering message is synthesized and output to the caller. The radio-telephone includes an antenna, a radio transmitter, a radio receiver, a duplexer allowing common use of the antenna for receiving and transmitting, audio receiving and transmitting circuits, a wideband data modem for decoding and digitizing received DTMF signals, and adder circuits for adding respective voice synthesis outputs of the voice analyzer and synthesizer circuit and the voice synthesizer circuit with the received and transmitted audio signals.

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11 Claims

1. In a vehicle radio-telephone having an antenna, a receiving audio circuit and a transmitting audio circuit, an automatic answering device comprising:
- duplexer means operably connected with said antenna for permitting common use of said antenna for both transmitting and receiving;
  
  radio transmitter means operably connected with said duplexer means for transmitting, as radio frequency signals, voice signals input thereto, said radio transmitter means being operably connected with said duplexer means;
  
  radio receiver means for receiving, as radio frequency signals input thereto, voice and dual tone multi-frequency (DTMF) signals, said radio receiver means being operably connected with said duplexer means;
  
  voice analyzing and synthesizing circuit means operably connected with an output of said radio receiver means for analyzing and synthesizing, by an adaptive delta modulation (ADM) process, voice signals received from said radio transmitter means, for selectively recording and reproducing received radio-telephonic voice signals;
  
  wide band data (WBD) modem means operably connected with an output of said radio receiver means for decoding and digitizing received radio-telephonic DTMF signals;
  
  first adder circuit means operably connected with an output of said radio receiver means and an output of said voice analyzing and synthesizing circuit means and also with an input of said receiving audio circuit, for adding reproduced voice signals output by said voice analyzing and synthesizing circuit means and voice signals received by said radio receiver means to produce a voice signal output in accordance therewith to said receiving audio circuit;
  
  voice synthesizing circuit means containing, in discrete stored digital data form, first, second and third answering messages each corresponding to a respective answering mode of said automatic answering device, for selectively reproducing said first through third answering messages as voice signals by a linear predictive coding (LPC) voice synthesis procedure;
  
  second adder circuit means operably connected with an output of said voice synthesizing circuit means, an output of said transmitting audio circuit and an input of said radio transmitter means, for adding synthesized voice signals output by said voice synthesizing circuit means and voice signal outputs of said radio transmitter means for producing a voice signal output in accordance therewith to said radio transmitter means for radio-telephonic transmission; and
  
  controller means operably connected with said voice analyzing and synthesizing circuit means, said WBD modem means and said voice synthesizing circuit means, for controlling the voice synthesis and outputting of one of said first through third answering messages by said voice synthesizing circuit means corresponding to one of a first, second and third selectable answering modes, andin said first selectable answering mode, for controlling said voice synthesizing circuit means to synthesize said first answering message for informing a caller of a called party'"'"'s absence and of a telephone number at which the called party may be called;
  
  in said second selectable answering mode, for controlling said voice synthesizing circuit means to synthesize said second answering message for informing the caller of the called party'"'"'s absence and requesting the caller to successively input DTMF key signals representing the caller'"'"'s telephone number followed by a first DTMF key signal, and upon receiving from said WBD modem means, as a decoded and digitized signal, said DTMF telephone number signals and first DTMF key signal input by the caller in response to said second answering message, for storing the caller'"'"'s input telephone number; and
  
  in said third selectable answering mode, for controlling said voice synthesizing circuit means to synthesize said second answering message for informing the caller of the called party'"'"'s absence and requesting the caller to input a second DTMF key signal for permitting the caller to leave a voice message, and upon receiving from said WBD modem means, as a decoded and digitized signal, said second DTMF key signal input by the caller in response to said third answering message, for controlling said voice analyzing and synthesizing circuit means to record the caller'"'"'s voice message.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
- - 2. The automatic answering device according to claim 1, wherein said controller means is operably connected with said voice analyzing and synthesizing circuit means by a first input/output line, with said WBD modem means by a second input/output line, and with said voice synthesizing circuit means by a third input/output line.
  - 3. The automatic answering device according to claim 2, wherein said voice analyzing and synthesizing circuit means comprises:
    - first lowpass filter means connected to the output of the radio receiver means for eliminating high frequency noise in the voice signal output by said radio receiver means;
      
      voice analyzing and synthesizing section means connected to said first lowpass filter means for outputting and inputting voice characteristic parameters analyzed and extracted from voice signals from said first lowpass filter means by an ADM procedure in accordance with a first control signal received on said first input/output line, for recording caller voice messages and for synthesizing said recorded caller voice messages by said ADM procedure in accordance with said characteristic parameters;
      
      memory means connected with said voice analyzing and synthesizing section means for storing said analyzed and extracted characteristic parameters of the received voice signals under control of said voice analyzing and synthesizing section means; and
      
      second lowpass filter means connected with said voice analyzing and synthesizing section means and with an input of said first adder circuit means for removing high frequency noise from voice messages synthesized by said voice analyzing and synthesizing section means and for supplying a filter voice signal therefrom to said first adder circuit means.
  - 4. The automatic answering device according to claim 3, wherein said first lowpass filter means is comprised of an RC circuit having a single pole and a cutoff frequency of 3.3 KHz.
  - 5. The automatic answering device according to claim 3, wherein said second lowpass filter means has six poles and a cutoff frequency of 3.3 KHz.
  - 6. The automatic answering device according to claim 3, wherein said second lowpass filter means is comprised of a first three subordinate lowpass filter stages connected in series, an output of which series-connected first three subordinate lowpass filter stages is operably connected with an input of a first buffer circuit, a second three subordinate lowpass filter stages being connected in series with an output of said first buffer circuit, an output of said series-connected second three subordinate lowpass filter stages being connected with an input of a second buffer circuit.
  - 7. The automatic answering device according to claim 6, wherein said first and second buffer circuits comprise operational amplifiers having their non-inverting inputs operably connected with respective outputs of said series-connected first and second three subordinate lowpass filter stages, and having their inverting inputs each operably connected with their own outputs.
  - 8. The automatic answering device according to claim 2, wherein said voice synthesizing circuit means comprises:
    - memory means for fixedly storing message voice data of said first through third answering messages in digital form, said voice data being stored at arbitrary addresses therein and being readable therefrom;
      
      voice synthesizing section means operably connected with said memory means and via said third input/output line with said controller means, for synthesizing by linear predictive coding (LPC) said arbitrarily stored voice data to produce as synthesized speech said first through third answering messages, said voice synthesizing section means being controllable by said controller means via said third input/output line for selecting the data address in said memory means corresponding to one of said first through third answering messages in accordance with a corresponding message mode selected at said controller means, for reading out said voice data of said corresponding one of said first through third answering messages from said memory means and for synthesizing said corresponding one of said first through third answering messages therefrom; and
      
      lowpass filter means operably connected with a voice output of said voice synthesizing section means for eliminating high frequency sampled noise from said synthesized voice, an output of said lowpass filter means being operably connected with an input of said second adder circuit means.
  - 9. The automatic answering device according to claim 8, wherein said lowpass filter means is comprised of two series-connected lowpass filter stages, said lowpass filter means having two poles and a cutoff frequency of 3.3 KHz.

10. In an automatic answering device for a vehicle radio-telephone, said automatic answering device having a user-operable controller means for selecting one of a selectable first answering message mode for informing a caller of a called party'"'"'s absence and of a telephone number at which the called party may be called, a selectable second answering message mode for informing the caller of the called party'"'"'s absence and requesting the caller to successively input dual-tone multifrequency (DTMF) key signals representing the caller'"'"'s telephone number followed by a first DTMF key signal for recording the caller'"'"'s telephone number, and a third selectable answering message mode for informing the caller of the called party'"'"'s absence and requesting the caller to input a second DTMF key signal for permitting the caller to leave a voice message, the control method for establishing one of said first through third selectable answering message modes, comprising the steps of:
- checking for the presence of a command for establishing any of said first through third answering message modes;
  
  in the presence of a command for establishing an answering message mode, inputting to said controller means a message mode selection key signal for identifying one of said first through third answering message modes;
  
  when said message mode selection key signal identifies said first answering message mode, checking for the presence of a recorded called party telephone number and, if same is present, establishing said first answering message mode;
  
  when said message mode selection key signal identifies said second answering message mode, establishing said second answering message mode; and
  
  when said message mode selection key signal identifies said third answering message mode, establishing said third answering message mode.

11. In an automatic answering device for a vehicle radio-telephone, said automatic answering device having a user-operable controller means for selecting one of a selectable first answering message mode for informing a caller of a called party'"'"'s absence and of a telephone number at which the called party may be called, a selectable second answering message mode for informing the caller of the called party'"'"'s absence and requesting the caller to successively input dual-tone multifrequency (DTMF) key signals representing the caller'"'"'s telephone number followed by a first DTMF key signal for recording the caller'"'"'s telephone number, and a third selectable answering message mode for informing the caller of the called party'"'"'s absence and requesting the caller to input a second DTMF key signal for permitting the caller to leave a voice message, the control method for operating said automatic answering device for executing any of said first through third answering message modes, comprising the steps of:
- upon receiving an incoming call, checking whether one of said first through third answering message modes has been selected;
  
  if said first answering message mode has been selected, transmitting a first answering message to the caller, for informing the caller of the called party'"'"'s absence and of a telephone number at which the called party may be called;
  
  if said second answering message mode has been selected, transmitting a second answering message for informing the caller of the called party'"'"'s absence and requesting the caller to successively input DTMF key signals representing the caller'"'"'s telephone number followed by a first DTMF key signal, and upon receiving said DTMF telephone number signals and first DTMF key signal input by the caller in response to said second answering message, storing the caller'"'"'s input telephone number;
  
  orif said third answering message mode has been selected, transmitting a third answering message for informing the caller of the called party'"'"'s absence and requesting the caller to input a second DTMF key signal for permitting the caller to leave a voice message, and upon receiving said second DTMF key signal input by the caller in response to said third answering message, recording a voice message from the caller.

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Current Assignee
Samsung Electronics Co. Ltd.
Original Assignee
Samsung Electronics Co. Ltd.
Inventors
Kang, Seo-Won
Primary Examiner(s)
BROWN, THOMAS

Application Number

US07/356,699
Time in Patent Office

873 Days
Field of Search

379/59, 379/63, 379/58, 379/88, 379/98
US Class Current

455/556.1
CPC Class Codes

H04M 1/57   Arrangements for indicating...

H04M 1/651   with speech synthesis

H04M 1/663   Preventing unauthorised cal...

H04M 1/724   User interfaces specially a...

Automatic answering method for a vehicle radio-telephone and device therefor

First Claim

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Abstract

54 Citations

11 Claims

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Automatic answering method for a vehicle radio-telephone and device therefor

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

54 Citations

11 Claims

Specification

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Solutions

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