Sound source with free compression and expansion of voice independently of pitch

US 6,169,241 B1
Filed: 02/20/1998
Issued: 01/02/2001
Est. Priority Date: 03/03/1997
Status: Expired due to Term

First Claim

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1. A music apparatus for generating a music tone at a specified pitch while freely contracting and expanding the music tone along a time axis, the music apparatus comprising:

a waveform memory that memorizes a music tone in the form of waveform data composed of a sequence of waveform units arranged in cycles along the time axis, each waveform unit having a normalized cycle length;

a read address generator that generates a read address which successively increments at a rate corresponding to the specified pitch, thereby reading out the waveform data from the waveform memory according to the read address;

a tone generator that processes the read waveform data to generate the music tone at the specified pitch;

a virtual address generator that generates a virtual address effective to freely contract and expand the time axis of the waveform data; and

an address controller that operates when the read address deviates from the virtual address during the course of generation of the music tone for controlling the read address generator to change the read address by an integer multiple of the normalized cycle length so as to track the virtual address.

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Abstract

A music apparatus is constructed for generating a music tone at a specified pitch while freely contracting and expanding the music tone along a time axis. In the music apparatus, a waveform memory memorizes a music tone in the form of waveform data composed of a sequence of waveform units arranged in cycles along the time axis. Each waveform unit has a normalized cycle length. A read address generator generates a read address which successively increments at a rate corresponding to the specified pitch, thereby reading out the waveform data from the waveform memory according to the read address. A tone generator processes the read waveform data to generate the music tone at the specified pitch. A virtual address generator generates a virtual address effective to freely contract and expand the time axis of the waveform data. An address controller operates when the read address deviates from the virtual address during the course of generation of the music tone for controlling the read address generator to change the read address by an integer multiple of the normalized cycle length so as to track the virtual address.

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34 Claims

1. A music apparatus for generating a music tone at a specified pitch while freely contracting and expanding the music tone along a time axis, the music apparatus comprising:
- a waveform memory that memorizes a music tone in the form of waveform data composed of a sequence of waveform units arranged in cycles along the time axis, each waveform unit having a normalized cycle length;
  
  a read address generator that generates a read address which successively increments at a rate corresponding to the specified pitch, thereby reading out the waveform data from the waveform memory according to the read address;
  
  a tone generator that processes the read waveform data to generate the music tone at the specified pitch;
  
  a virtual address generator that generates a virtual address effective to freely contract and expand the time axis of the waveform data; and
  
  an address controller that operates when the read address deviates from the virtual address during the course of generation of the music tone for controlling the read address generator to change the read address by an integer multiple of the normalized cycle length so as to track the virtual address.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- - 2. A music apparatus according to claim 1, further comprising a compression rate memory that memorizes a compression rate by which each waveform unit is compressed to normalize a cycle length of each waveform unit, and wherein the read address generator adjusts the rate of the read address according to the compression rate memorized in the compression rate memory.
  - 3. A music apparatus according to claim 1, wherein the read address generator comprises a counter that operates based on the pitch of the music tone for successively outputting a pointer effective to regulate a phase of each waveform unit to be read out, and a regulator that processes the pointer according to a different normalized cycle length of each waveform unit for generating the read address so that each waveform unit can be read out in the same phase without regard to the different normalized cycle length.
  - 4. A music apparatus according to claim 1, wherein each waveform unit contains sample values in number of 2^xwhere X is determined according to the normalized cycle length, and wherein the read address generator comprises a counter that counts a binary number represented by Y bits so as to generate the read address where Y is not less than X, and a detector that detects an end point of reading of each waveform unit when the counter carries the binary number at bit X.
  - 5. A music apparatus according to claim 4, wherein the counter operates based on the pitch of the music tone for successively outputting a pointer effective to regulate a phase of each waveform unit to be read out, and wherein the read address generator further comprises a regulator that processes the pointer according to a different normalized cycle length of each waveform unit for generating the read address so that each waveform unit can be read out in the same phase without regard to the different normalized cycle length.
  - 6. A music apparatus according to claim 1, wherein the read address generator generates a read address including a read cycle number which successively designates each waveform unit, wherein the virtual address generator generates a virtual address including a virtual cycle number which successively designates each waveform unit, and wherein the address controller operates when the read cycle number deviates from the virtual cycle number during the course of generation of the music tone for controlling the read address generator to change the read cycle number so as to track the virtual cycle number.
  - 7. A music apparatus according to claim 6, wherein the address controller operates when a cycle number difference between the read cycle number and the virtual cycle number exceeds a predetermined value during the course of generation of the music tone for controlling the read address generator to change the read cycle number so as to reduce the cycle number difference below the predetermined value.
  - 8. A music apparatus according to claim 6, wherein the read address generator normally generates a continuous read cycle number which successively designates each waveform unit, wherein the virtual address generator occasionally generates a discontinuous virtual cycle number which designates jump from one waveform unit to another waveform unit, and wherein the address controller operates in response to the discontinuous virtual cycle number for controlling the read address generator to discontinuously change the continuous read cycle number so as to track the virtual cycle number.
  - 9. A music apparatus according to claim 8, wherein the virtual address generator normally generates a continuous virtual cycle number during loop cycles between a loop start cycle and a loop end cycle, and occasionally generates a discontinuous virtual cycle number which designates jump from the loop end cycle to the loop start cycle.
  - 10. A music apparatus according to claim 1, further comprising a sampler that provides waveform data by digital sampling of a music tone, an analyzer that analyzes the waveform data to determine a cycle length of each waveform unit contained in the waveform data, and a normalizer that selectively compresses and expands each waveform unit to normalize the cycle length.

11. A music apparatus for generating a music tone at a specified pitch while freely contracting and expanding the music tone along a time axis, the music apparatus comprising:
- a waveform memory that memorizes a music tone in the form of waveform data composed of a sequence of waveform units arranged in cycles along the time axis;
  
  a read address generator that generates a read address which successively increments at a rate corresponding to the specified pitch so as to read out the waveform data from the waveform memory, the read address including a read cycle number which successively designates each waveform unit;
  
  a tone generator that processes the read waveform data to generate the music tone at the specified pitch;
  
  a virtual address generator that generates a virtual address effective to freely contract and expand the time axis of the waveform data, the virtual address including a virtual cycle number which successively designates each waveform unit; and
  
  an address controller that operates when the read cycle number deviates from the virtual cycle number during the course of generation of the music tone for controlling the read address generator to change the read cycle number so as to track the virtual cycle number.

12. A music apparatus for generating a music tone at a specified pitch while freely contracting and expanding the music tone along a time axis, the music apparatus comprising:
- a waveform memory that memorizes a music tone in the form of waveform data composed of a sequence of waveform units arranged in cycles along the time axis;
  
  a read address generator that generates a read address which successively increments at a rate corresponding to the specified pitch so as to read out each waveform unit from the waveform memory, and that normally generates a continuous read cycle number which successively designates each waveform unit;
  
  a tone generator that processes the read waveform data to generate the music tone at the specified pitch;
  
  a virtual address generator that generates a virtual address effective to freely contract and expand the time axis of the waveform data, the virtual address including a continuous virtual cycle number which successively designates each waveform unit and occasionally including a discontinuous virtual cycle number which designates jump from one waveform unit to another waveform unit; and
  
  an address controller that operates in response to the discontinuous virtual cycle number for controlling the read address generator to discontinuously change the continues read cycle number so as to track the virtual cycle number.
- View Dependent Claims (13)
- - 13. A music apparatus according to claim 12, wherein the virtual address generator normally generates a continuous virtual cycle number during loop cycles between a loop start cycle and a loop end cycle, and occasionally generates a discontinuous virtual cycle number which designates jump from the loop end cycle to the loop start cycle.

14. A voicing apparatus for generating a voice at a specified pitch while freely contracting and expanding the voice along a time axis, the voicing apparatus comprising:
- memory means for memorizing a voice in the form of waveform data composed of a sequence of waveform units arranged in cycles along the time axis, each waveform unit having a normalized cycle length;
  
  first address means for generating a read address which successively increments at a rate corresponding to the specified pitch so as to read out the waveform data from the memory means;
  
  voice means for processing the read waveform data to generate the voice at the specified pitch;
  
  second address means for generating a virtual address effective to freely contract and expand the time axis of the waveform data; and
  
  address control means operative when the read address deviates from the virtual address during the course of generation of the voice for controlling the first address means to change the read address by an integer multiple of the normalized cycle length so as to follow the virtual address.

15. A voicing apparatus for generating a voice at a specified pitch while freely contracting and expanding the voice along a time axis, the voicing apparatus comprising:
- memory means for memorizing a voice in the form of waveform data composed of a sequence of waveform units arranged in cycles along the time axis;
  
  first address means for generating a read address which successively increments at a rate corresponding to the specified pitch so as to read out the waveform data from the memory means, the read address including a read cycle number which successively designates each waveform unit;
  
  voice means for processing the read waveform data to generate the voice at the specified pitch;
  
  second address means for generating a virtual address effective to freely contract and expand the time axis of the waveform data, the virtual address including a virtual cycle number which successively designates each waveform unit; and
  
  address control means operative when the read cycle number deviates from the virtual cycle number during the course of generation of the voice for controlling the first address means to change the read cycle number so as to follow the virtual cycle number.

16. A voicing apparatus for generating a voice at a specified pitch while freely contracting and expanding the voice along a time axis, the voicing apparatus comprising:
- memory means for memorizing a voice in the form of waveform data composed of a sequence of waveform units arranged in cycles along the time axis;
  
  first address means for generating a read address which successively increments at a rate corresponding to the specified pitch so as to read out each waveform unit from the memory means, the first address means normally generating a continuous read address which successively designates each waveform unit;
  
  voice means for processing the read waveform data to generate the voice at the specified pitch;
  
  second address means for generating a virtual address effective to freely contract and expand the time axis of the waveform data, the second address means generating a continuous virtual address which successively designates each waveform unit and occasionally generating a discontinuous virtual address which designates jump from one waveform unit to another waveform unit; and
  
  address control means operative in response to the discontinuous virtual address for controlling the first address means to discontinuously change the continuous read address so as to keep in track with the virtual address.

17. A method of generating a voice at a specified pitch while freely contracting and expanding the voice along a time axis, the method comprising the steps of:
- memorizing a voice in the form of waveform data composed of a sequence of waveform units arranged in cycles along the time axis, each waveform unit having a normalized cycle length;
  
  generating a read address which successively increments at a rate corresponding to the specified pitch so as to read out the memorized waveform data;
  
  processing the read waveform data to generate the voice at the specified pitch;
  
  generating a virtual address effective to freely contract and expand the time axis of the waveform data; and
  
  changing the read address by an integer multiple of the normalized cycle length so as to follow the virtual address when the read address deviates from the virtual address during the course of generation of the voice.

18. A method of generating a voice at a specified pitch while freely contracting and expanding the voice along a time axis, the method comprising the steps of:
- memorizing a voice in the form of waveform data composed of a sequence of waveform units arranged in cycles along the time axis;
  
  generating a read address which successively increments at a rate corresponding to the specified pitch so as to read out the memorized waveform data, the read address including a read cycle number which successively designates each waveform unit;
  
  processing the read waveform data to generate the voice at the specified pitch;
  
  generating a virtual address effective to freely contract and expand the time axis of the waveform data, the virtual address including a virtual cycle number which successively designates each waveform unit; and
  
  changing the read cycle number to keep in track with the virtual cycle number when the read cycle number deviates from the virtual cycle number during the course of generation of the voice.

19. A method of generating a voice at a specified pitch while freely contracting and expanding the voice along a time axis, the method comprising the steps of:
- memorizing a voice in the form of waveform data composed of a sequence of waveform units arranged in cycles along the time axis;
  
  generating a read address which successively increments at a rate corresponding to the specified pitch so as to read out the memorized waveform data, the read address normally being a continuous read address which successively designates each waveform unit;
  
  processing the read waveform data to generate the voice at the specified pitch;
  
  generating a virtual address effective to freely contract and expand the time axis of the waveform data, the virtual address including a continuous virtual address which successively designates each waveform unit and occasionally including a discontinuous virtual address which designates jump from one waveform unit to another waveform unit; and
  
  discontinuously changing the continues read address in response to the discontinuous virtual address so as to keep in track with the virtual address during the course of generation of the voice.

20. A machine readable medium for use in a voicing apparatus having a CPU for generating a voice at a specified pitch while freely contracting and expanding the voice along a time axis, the medium containing program instructions executable by the CPU for causing the voicing apparatus to perform the steps of:
- memorizing a voice in the form of waveform data composed of a sequence of waveform units arranged in cycles along the time axis, each waveform unit having a normalized cycle length;
  
  generating a read address which successively increments at a rate corresponding to the specified pitch so as to read out the memorized waveform data;
  
  processing the read waveform data to generate the voice at the specified pitch;
  
  generating a virtual address effective to freely contract and expand the time axis of the waveform data; and
  
  changing the read address by an integer multiple of the normalized cycle length so as to follow the virtual address when the read address deviates from the virtual address during the course of generation of the voice.

21. A machine readable medium for use in a voicing apparatus having a CPU for generating a voice at a specified pitch while freely contracting and expanding the voice along a time axis, the medium containing program instructions executable by the CPU for causing the voicing apparatus to perform the steps of:
- memorizing a voice in the form of waveform data composed of a sequence of waveform units arranged in cycles along the time axis;
  
  generating a read address which successively increments at a rate corresponding to the specified pitch so as to read out the memorized waveform data, the read address including a read cycle number which successively designates each waveform unit;
  
  processing the read waveform data to generate the voice at the specified pitch;
  
  generating a virtual address effective to freely contract and expand the time axis of the waveform data, the virtual address including a virtual cycle number which successively designates each waveform unit; and
  
  changing the read cycle number to keep in track with the virtual cycle number when the read cycle number deviates from the virtual cycle number during the course of generation of the voice.

22. A machine readable medium for use in a voicing apparatus having a CPU for generating a voice at a specified pitch while freely contracting and expanding the voice along a time axis, the medium containing program instructions executable by the CPU for causing the voicing apparatus to perform the steps of:
- memorizing a voice in the form of waveform data composed of a sequence of waveform units arranged in cycles along the time axis;
  
  generating a read address which successively increments at a rate corresponding to the specified pitch so as to read out the memorized waveform data, the read address normally being a continuous read address which successively designates each waveform unit;
  
  processing the read waveform data to generate the voice at the specified pitch;
  
  generating a virtual address effective to freely contract and expand the time axis of the waveform data, the virtual address including a continuous virtual address which successively designates each waveform unit and occasionally including a discontinuous virtual address which designates jump from one waveform unit to another waveform unit; and
  
  discontinuously changing the continuous read address in response to the discontinuous virtual address so as to keep in track with the virtual address during the course of generation of the voice.

23. An apparatus for reproducing waveform data of a tone comprising:
- a memory that memorixzes waveform data whcih represents a series of waveform values of a tone arranged sequentially along a time axis;
  
  an input section that inputs information which indicates contraction or expansion of the time axis during the course of reproduction of the waveform data; and
  
  a reproducing section that sequentially extracts blocks of the waveform values from the series of the waveform values in a reverse direction of the time axis from present to past, the reproducing section being operative when the inputted information indicates the contraction for rearranging the series of the waveform values by thinning out waveform values other than those contained in the extracted bloks so as to reproduce the waveform data, otherwise being operative when the inputted information indicates the expansion for rearranging the series of the waveform values by duplicating a part of the waveform value contained in the extracted blocks so as to reproduce the waveform data.

24. An apparatus reproducing waveform data of a tone comprising:
- a memory that memorizes waveform data which represents a series of a waveform values of a tone arranged sequentially along a time axis;
  
  an input section that inputs information which indicates contraction or expansion of the time axis during the course of reproduction of the waveform data;
  
  a pointer section that sequentially points to positions of the waveform values along the time axis in a reverse direction from present to past at a rate corresponding to a degree of the contraction or expansion indicated by the inputted information; and
  
  a reproducing section for sequentially extracting blocks of the waveform values from the series of the waveform values based on the sequentially pointed positions so as to reproduce the waveform data, the reproduce the waveform data, the reproducing secton being operative if the position does not yet reach a next block for repeating a part of a current block until the position advances to the next block.

25. An apparatus for reproducing waveform, data of a tone comprising:
- a memory that memorizes waveform data which represents a series of waveform values of a tone arranged sequentially along a time axis;
  
  an input section that inputs information which indicates contraction or expansion of the time axis during the course of reproduction of the waveform data; and
  
  a reproducing section that sequentially extracts blocks of the waveform values from the series of the waveform values in a reverse direction of the time axis from present to past, each block having a length determined according to a degree of the contraction or extractin indicated by the inputted information, the reproducing section rearranging the extracted blocks so as to reproduce the waveform data.

26. An apparatus for reproducing waveform data of tones comprising:
- a memory that memorizes waveform data which represents a eries of waveform values of tones arranged sequentially along a time axis;
  
  an input section that inputs information which indicates contraction or expansion of the time axis during the course of reproduction of the waveform data;
  
  a pointer section that sequentially points to positions of the waveform values along the time axis in a reverse direction from present to past at a rate corresponding to a degree of the contraction or expansion indicated by the inputted information; and
  
  a reproducing section that sequentially extracts blocks of the waveform values from the series of the waveform values based on the sequentially pointed positions, and rearranging the blocks so as to reproduce the waveform data.

27. A method of reproducing waveform data of a tone comprising the steps of:
- providing waveform data that represents a series of waveform values of a tone arranged sequentially along a time axis;
  
  inputting information that indicates contraction or expansion of the time axis during the corse of reproduction of the waveform data;
  
  sequentially extracting blocks of the waveform values from the series of the waveform values in a reverse direction of the time axis from present to past;
  
  rearranging the series of the waveform values by thinning out waveform values other than those contained in the extracted blocks so as to reproduce the waveform data when the inputted information indiates the contraction; and
  
  otherwise rearranging the series of the waveform values by duplicating a part of the waveform values contained in the extracted blocks so as to reproduce the waveform data when the inputted information indicates the expansion.

28. A method of reproducing waveform data of a tone comprising the steps of:
- providing waveform data that represents a series of a waveform values of a tone arranged sequentially along a time axis;
  
  inputting information that indicates contraction or expansion of the time axis during the course of reproduction of the waveform data;
  
  sequentially pointing to positions of the waveform values along the time axis in a reverse direction from present to past at a rate corresponding to a degree of the contraction or expansion indicated by the inputted information;
  
  sequentially extracting blocks of the waveform values from the series of the waveform values based on the sequentially pointed positions so as to reproduce the waveform data; and
  
  repeating a part of a current block until the position advances to a next block if the position does not yet reach the next block.

29. A method of reproducing waveform data of a tone comprising the steps of:
- providing waveform data that represents a series of waveform values of a tone arranged sequentially along a time axis;
  
  inputting information that indicates contraction or expansion of the time axis during the course or reproduction of the waveform data;
  
  sequentially extracting blocks of the waveform values from the series of the waveform values in a reverse direction of the time axis from present to past such that each block has a length determined according to a degree of the contraction or extraction indicated by the inputted information; and
  
  rearranging the extracted blocks so as to reproduce the waveform data.

30. A method of reproducing waveform data of tones comprising the steps of:
- providing waveform data that represents a series of waveform, values of tones arranged sequentially along a time axis;
  
  inputting information that indicates contraction or expansion of the time axis during the course of reproduction of the waveform data;
  
  sequentially pointing to positions of the waveform values along the time axis in a reverse direction from present to past at a rate corresponding to a degree of the contraction or expansion idicated by the inputted information;
  
  sequentially extracting blocks of the waveform values from the series of the waveform values based on the sequentially pointed positions; and
  
  rearranging the blocks so as to reproduce the waveform data.

31. A machine-readable medium for use in a music apparatus having a central processing unit, the medium containing program instructions executable by the central processing unit for causing the music apparatus to perform a process of reproducing waveform data of a tone, wherein the process comprises the steps of:
- loading waveform data that represents a series of waveform values of a tone arraned sequentially along a time axis;
  
  inputting information that indicates contraction or expansion of the time axis during the course of reproduction of the waveform data;
  
  sequentially extracting blocks of the waveform values from the series of the waveform values in a reverse direction of the time axis from present to past;
  
  rearranging the series of the waveform values by thinning out waveform values other than those contained in the extracted bocks so as to reproduce the waveform data when the inputted information indicates the contraction; and
  
  otherwise rearranging the series of the waveform vales by duplicating a part of the waveform values contained in the extracted blocks so as to reproduce the waveform data when the inputted information indicates the expansion.

32. A machine-readable medium for use in a music apparatus having a central processing unit, the medium containing program instructions executable by the central processing unit for causing the music apparatus to perform a process of reproducing waveform data of a tone, wherein the process comprises the steps of:
- loading waveform data that represents a series of waveform values of a tone arranged sequentially along a time axis;
  
  inputting information that indicates contraction or expansion of the time axis during the course of reproduction of the waveform data;
  
  sequentially pointing to positions of the waveform values along the time axis in a reverse direction from present to past at a rate corresponding to a degree of the Contraction or expansion indicated by the inputted information;
  
  sequentially extracting blocks of the waveform values from the series of the waveform values based on the sequentially pointed positions so as to reproduce the waveform data; and
  
  repeating a part of a current block until the position advances to a next block if the position does not yet reach the next block.

33. A machine-readable medium for use in a music apparatus having a central processing unit, the medium program instructions executable by the central processing unit for causing the music apparatus to perform a process or reproducing waveform data of a tone, wherein the process comprises the steps of:
- loading waveform data that represents a series of waveform values of a tone arranged sequentially along a time axis;
  
  inputting information that indicates contraction or expansion of the time axis during the course of reproduction of the waveform data;
  
  sequentially extracting blocks of the waveform values from the series of the waveform values in a reverse direction of the time axis from present to past such that each block has a length determined according to a degree of the contraction or extraction indicated by the inputted information; and
  
  rearranging the extracted blocks so as to reproduce the waveform data.

34. A machine-readalbe medium for use in a music apparatus having a central processing unit, the medium containing program instructions exectuable by the central processing unit for causing the music apparatus to perform a process of reproducing waveform data of a tone, wherein the process comprises the steps of:
- loading waveform data that represents a series of waveform values of tones arranged sequentially along a time axis;
  
  inputting information that indicates contraction or expansion of the time axis during the course of reproduction of the waveform data;
  
  sequentially pointing to positions of the waveform values along the time axis in a reverse direction from present to past at a rate corresponding to a degree of the contraction or expansion indicated by the inputted information;
  
  sequentially extracting blocks of the waveform values from the series of the waveform values based on the sequentially pointed positions; and
  
  rearranging the blocks so as to reproduce the waveform data.

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Current Assignee
Yamaha Corporation
Original Assignee
Yamaha Corporation
Inventors
Shimizu, Masahiro
Primary Examiner(s)
Ro, Bentsu
Assistant Examiner(s)
Fletcher, Marlon T.

Application Number

US09/026,960
Time in Patent Office

1,047 Days
Field of Search

846/01--05, 846/22--25, 846/26, 846/27, 846/15
US Class Current

84/605
CPC Class Codes

G10H 2250/641 Waveform sampler, i.e. musi...

G10H 7/04 in which amplitudes are rea...

Sound source with free compression and expansion of voice independently of pitch

First Claim

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Abstract

101 Citations

34 Claims

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Sound source with free compression and expansion of voice independently of pitch

First Claim

1 Assignment

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Accused Products

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Abstract

101 Citations

34 Claims

Specification

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