WO2000058939A2 - Features of a music synthesizing system including electronic apparatus and devices - Google Patents
Features of a music synthesizing system including electronic apparatus and devices Download PDFInfo
- Publication number
- WO2000058939A2 WO2000058939A2 PCT/GB2000/001179 GB0001179W WO0058939A2 WO 2000058939 A2 WO2000058939 A2 WO 2000058939A2 GB 0001179 W GB0001179 W GB 0001179W WO 0058939 A2 WO0058939 A2 WO 0058939A2
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- WIPO (PCT)
- Prior art keywords
- actuation
- user
- control
- music
- synthesizing system
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Classifications
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- G—PHYSICS
- G10—MUSICAL INSTRUMENTS; ACOUSTICS
- G10H—ELECTROPHONIC MUSICAL INSTRUMENTS; INSTRUMENTS IN WHICH THE TONES ARE GENERATED BY ELECTROMECHANICAL MEANS OR ELECTRONIC GENERATORS, OR IN WHICH THE TONES ARE SYNTHESISED FROM A DATA STORE
- G10H1/00—Details of electrophonic musical instruments
- G10H1/02—Means for controlling the tone frequencies, e.g. attack or decay; Means for producing special musical effects, e.g. vibratos or glissandos
- G10H1/04—Means for controlling the tone frequencies, e.g. attack or decay; Means for producing special musical effects, e.g. vibratos or glissandos by additional modulation
- G10H1/053—Means for controlling the tone frequencies, e.g. attack or decay; Means for producing special musical effects, e.g. vibratos or glissandos by additional modulation during execution only
- G10H1/055—Means for controlling the tone frequencies, e.g. attack or decay; Means for producing special musical effects, e.g. vibratos or glissandos by additional modulation during execution only by switches with variable impedance elements
- G10H1/0555—Means for controlling the tone frequencies, e.g. attack or decay; Means for producing special musical effects, e.g. vibratos or glissandos by additional modulation during execution only by switches with variable impedance elements using magnetic or electromagnetic means
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- G—PHYSICS
- G10—MUSICAL INSTRUMENTS; ACOUSTICS
- G10H—ELECTROPHONIC MUSICAL INSTRUMENTS; INSTRUMENTS IN WHICH THE TONES ARE GENERATED BY ELECTROMECHANICAL MEANS OR ELECTRONIC GENERATORS, OR IN WHICH THE TONES ARE SYNTHESISED FROM A DATA STORE
- G10H1/00—Details of electrophonic musical instruments
- G10H1/0008—Associated control or indicating means
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- G—PHYSICS
- G10—MUSICAL INSTRUMENTS; ACOUSTICS
- G10H—ELECTROPHONIC MUSICAL INSTRUMENTS; INSTRUMENTS IN WHICH THE TONES ARE GENERATED BY ELECTROMECHANICAL MEANS OR ELECTRONIC GENERATORS, OR IN WHICH THE TONES ARE SYNTHESISED FROM A DATA STORE
- G10H1/00—Details of electrophonic musical instruments
- G10H1/0033—Recording/reproducing or transmission of music for electrophonic musical instruments
- G10H1/0041—Recording/reproducing or transmission of music for electrophonic musical instruments in coded form
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- G—PHYSICS
- G10—MUSICAL INSTRUMENTS; ACOUSTICS
- G10H—ELECTROPHONIC MUSICAL INSTRUMENTS; INSTRUMENTS IN WHICH THE TONES ARE GENERATED BY ELECTROMECHANICAL MEANS OR ELECTRONIC GENERATORS, OR IN WHICH THE TONES ARE SYNTHESISED FROM A DATA STORE
- G10H1/00—Details of electrophonic musical instruments
- G10H1/32—Constructional details
- G10H1/34—Switch arrangements, e.g. keyboards or mechanical switches specially adapted for electrophonic musical instruments
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- G—PHYSICS
- G10—MUSICAL INSTRUMENTS; ACOUSTICS
- G10H—ELECTROPHONIC MUSICAL INSTRUMENTS; INSTRUMENTS IN WHICH THE TONES ARE GENERATED BY ELECTROMECHANICAL MEANS OR ELECTRONIC GENERATORS, OR IN WHICH THE TONES ARE SYNTHESISED FROM A DATA STORE
- G10H2210/00—Aspects or methods of musical processing having intrinsic musical character, i.e. involving musical theory or musical parameters or relying on musical knowledge, as applied in electrophonic musical tools or instruments
- G10H2210/395—Special musical scales, i.e. other than the 12- interval equally tempered scale; Special input devices therefor
- G10H2210/541—Pentatonal or pentatonic scale, i.e. five pitches or notes per octave, e.g. basic chinese musical scale, black piano keys, javanese gamelan slendro scale, japanese shakuhachi flute
Definitions
- the invention relates to a music synthesizing system including electronic apparatus and devices thereof for use in connection with playing music.
- the inventor is aware of various programmable electronic musical instruments, apparatus, devices and processes to which the present invention may be allied . These include the following:
- (iii) apparatus which comprises a light beam for use in the actuating process, wherein the light beam is broken by a reflective source such that the reflected light travels back to a light sensor which, in turn, measures the amount of reflected light it receives, or, if any reflected light has been received at all.
- the light beams may be assigned to a plurality of light sensors (up to sixteen) which are, in turn, assigned to MIDI channels.
- the apparatus also adopts a MIDI process called MIDI toggle which apparently comprises a closed circuit wherein music data may be looped, for example, to sustain a note, then the loop curtailed.
- the apparatus is operable in real time;
- a process within a music system wherein a CPU instructs a sound I/O and a DMA controller to interrupt the same CPU per sampling clock Fs which is fed from the Fs clock generator, and to thereby execute a DR routine upon every interruption so as to start the operation of writing waveform samples into a recording buffer. Also, the CPU instructs the sound I/O to directly connect between an A/D input and a D/A output, and to directly feed a musical tone signal from an external source to the sound system. Further, the CPU instructs the sound I/O and the DMA controller to interrupt the same CPU per sampling clock Fs clock generator in order to execute a DR routine upon each interruption so as to start the operation of writing a waveform sample from an external source into a recording buffer;
- an A/D (or analogue) music tuning apparatus capable of supplying the user with visual data (via a display) entered therein from an external sound source via line input or microphone input wherein, for example, a sound wave may be processed and converted to an electronic signal.
- the device receives and decodes any such signal which is converted to a digital or analogue value being found and displayed, thereby enabling the user to adjust the tuning capability of a tuneable musical instrument which produces musical tones according to a specific frequency of pitch interpreted in Hz;
- Versions of the format comprise:
- musical note of a pre- stored sequence may be stepped through - triggered, hel ⁇ and ended at the will of the user via execution, for example, of a or each switch, these devices, m themselves, are somewhat clumsy, noisy, extremely basic, and therefore do not offer the performer/user levels of refinement m control and versatility needed during articulation (artistic performance of musical tones) which many or most performers would desire - in comparison, the actuators and or controllers of the said music synthesizing system amount to both sophisticated and versatile musical instruments ⁇ r themselves, which are described hereinafter; musical notes (of the pre-stored sequences) may also be triggered by MIDI equipment, but many known MIDI devices (including MIDI instruments) are unnecessarily complex to operate (m terms of the ethos of the inventor's remit for said music synthesizing system as described herein) and would need to be adapted accordingly, such as in ways described and by example of embodiments of the invention as these appear hereinafter.
- any controllers e.g. switch
- any controllers e.g. switch
- any controllers e.g. switch
- a trackerball to control the triggering of a or each musical tone such as within a pre- stored sequence
- said software/computer system is, in the main, not viable since only a reduced and unsatisfactory level of control over the triggering of individual units (e.g.
- the overlay was designed for use by those with restricted hand/finger movement; the designer of the said software/computer system (+ accessories) also disclosed a number of preferred physical movements of his clients (all of whom experience great difficulty with control over physical mobility) including one such preferred movement which requires the toe section of the foot to travel in a plane so as to be rotatable (from left to right or vice versa) about an axis while the heel is more or less pivoted.
- the said software/computer system (+ accessories) also comprises a process wherein the user/performer triggers (e.g.
- the said music synthesizing system transcends physical limitation in order to provide an instrumental means of musical expression and performance that, in aim, simplifies playing and or operative processes so as to facilitate quality of opportunity and achievement in music for all.
- (ix) Music software program that provides various opportunities for user to compose, perform and explore music.
- the software sets up, for example, an array of cells on screen, each of which can contain a single note, a chord, musical sequence or percussion pattern. Further, the cells in the grid can be triggered via computer mouse, trackerball and or from a MIDI instrument. Notes and chords can be played once or sustained; sequences can be played once, repeated and looped.
- the facility as it exists may be used as a musical instrument which can be edited and reconfigured so as to suit the needs of the user - however, there is no provision for stepping through each individual unit (note or chord stored in corresponding cell) at a timing determined by user.
- Audio-to-MIDI software (for MAC and PC) which recognises any one of a range of compatible solo musical instruments played through a supplied microphone which translates the performance to a standard MIDI file.
- the autoscore facility translates the performance committed to MIDI + audio sequencer into a visual score via a tracking process designed to take account of inaccurate pitching by the player, and limit the MIDI notes to either a chromatic scale, or to any of the twelve major or minor scales. During tracking, the nearest deemed correct note in the scale is selected.
- a full solo performance may be entered and translated to standard MIDI file.
- the audio signal played into soundcard is analysed for its pitch content and this is converted to the nearest MIDI note value.
- the software of (x) above is an effective tool which successfully helps users to commit musical ideas and compositions to a score via audio mic input - though there is no facility for audio line input and also no facility for manual (non automatic) musical performance.
- the Audio- to-MIDI software uses MIDI time stamps which fix each Note On and Note Off message to the time it was played, whereas, according to embodiments of the said music synthesizing system, note data is identified with one or more Time Points which are, in the main, data locations devoid of time elements, unless these are programmed in separately.
- Programmable digital electronic musical instruments such as keyboards, although offering a player many technical advantages and capabilities in the industry and field of music-making, including recording and composing, are somewhat disadvantageous in that many learners and inexperienced musicians find the mechanical operation (e.g. involving co-ordination) and playing processes involved in performing upon such instruments (including acoustic pianos, stringed instruments and wind instruments) too technically and or physically demanding, unduly complex, time-consuming and mentally frustrating.
- another object of embodiments of the present invention is to provide a technical means, wherein the process of selection of musical tones (as of a melody) is removed to a simpler process of data retrieval under system control, the data (indicative of musical tones) having been previously entered and or stored, according to one main aspect of the invention, as a predetermined sequence of notes in a digital electronic (DG) memory location.
- An actuator (input terminal) means (or a limited quantity of the such) operable by the user is used to play a or each musical tone in turn of the predetermined sequence at a timing determined by the user via actuation of a or each actuator means, as in a live performance, any musical tone or musical tones being of definite or indefinite pitch.
- a prime feature and identifiable characteristic of embodiments of the present invention is the user-friendly mechanical apparatus, especially the instruments and or instrument-like controllers and or method (s) of playing which, in the main, depend upon mostly rhythmic processes.
- Embodiments of the present invention therefore include electronic apparatus and devices of a music synthesizing system which amount to an electronic musical instrument.
- the said music synthesizing system is considerably easier to manipulate than most musical instruments, and its mastery made more achievable for the wider public, including young children, and for those persons with certain types of physical disability, also for some left-handers who experience difficulties when learning to play upon certain well known instruments.
- the present invention can further offer greater access and opportunities in music to the many, including in schools, higher and further education, in the home and also in the music industry.
- the invention may also be used to play so-called Staff Notation, or from specialised rhythmic notation which has been specifically created for it.
- a music synthesizing system comprising: means for reading, retrieving, sound processing and controlling music data, which music data is provided for sound reproduction via said music synthesizing system and stored in the format of a or each sequence, to include: predetermined sequence of musical tones; a random generation of successive musical tones; any other music data which is stored in a memory and concurrent with the concept of a said predetermined sequence; one or more sequences of musical tones, wherein a or each said musical tone being of definite or indefinite pitch is to be played in turn and in response to an output actuation of a First actuator means, at a or each timing determined by user; said First actuator means operable by user employed to play a or each said musical tone according to a corresponding First method of actuation, wherein the said First actuator means is used to play a or each said musical tone of corresponding said sequence in turn and at a timing determined by user, or to play any said musical tone of said sequence at a or each timing determined by user; said First actuator means operable by user employed to play
- the present invention further comprises means for further storing, reading, retrieving, sound processing and controlling said sequences for use with said music synthesizing system also including: one or more predetermined sequences of data progressions, wherein a or each predetermined sequence of this type comprises data such as data indicative of a predetermined sequence of settings and or parameters for concurrently processing a or each actuated musical tone in turn and at a timing determined by user, when each actuation corresponds with a or each one or group of designated settings and or designated parameters held within the sequence, while a or each said one or group of designated settings and or designated parameters is queued such as via control during an actuation step such that a or each said one or group of designated settings and or designated parameters held in said sequence is stepped through in turn and at a timing determined by the user such as when a first said one or group of designated settings and or designated parameters processes a corresponding first musical tone or a corresponding first said musical tone of said sequence and in a corresponding first actuation, and thereafter, when a second
- inventions of the present invention further comprising: programmable and or operable means programmable and or operable by the user to thereby perform the following including: instigate and execute data handling processes and functions of the said music synthesizing system according to a or each program and or according to a or each routine thereof to be instigated by the user so as to edit said music data of one or more said sequences and or adapt apparatus and or devices of said music synthesizing system for either of a non automatic performance or similarly manual performance, according to said First method and said First process of actuation; and or specify any number and or any combination of said sequences for actuation according to said First method and said First process of actuation when said programmable and or operable means further comprises panel controls and or mode select means for user to specify and designate any concurrent and programmable requirements of said music synthesizing system, including the number and or combination of said sequences for storage in one or more memory locations such as digital recording tracks for storage of said musical tones of one or more said sequences and or any one or more said chord
- said music synthesizing system also includes: both of the said First method of actuation and concept of a said sequence which extend to a development wherein any said First actuator means operable by user according to both or either of said First method of actuation and or according to said First process of actuation actuates a or each said musical tone or said chord of corresponding said sequence in turn and at a timing determined by user, including audibly in turn and at a or each timing determined by user, the said development comprising types of said sequence for use with said music synthesizing system, further including:
- a said random generation of successive musical tones such as said random generation of successive musical tones in data form further comprising: both of a mixture of single said musical tones which are concurrent with those musical tones derived from certain types of melodic scale and also one or more said chords of musical tones which are also concurrent with those musical tones derived from certain types of melodic scale; or a said random generation of successive musical tones such as said random generation of successive musical tones in data form comprising said chords which are concurrent with those chords derived from certain types of melodic scale;
- a predetermined sequence of data further comprising aperiodic and or non harmonic performance data such as aperiodic and or non harmonic play data including stored events such as control events stored sequentially and used for triggering and thus playing a or each sound effect and a or each characteristic to be actuated via said First method of actuation or via concurrent method and said First process of actuation or via concurrent process of actuation;
- this invention further comprises: said First actuator means co-operable with said First process of actuation while said First process further correlates with said First method of actuation and vice versa, such as when the resulting correlation performs during an operation wherein said two or more musical tones are actuated at the same time and at a timing determined by the user, and commence audibly at the same time and in response to a corresponding input signal of an output actuation of said First actuator means; a or each said First actuator means which further comprises means for controlling the sound of a said musical tone or said chord of said sequence according to dynamics, timbre and frequency, such that the said music synthesizing system is further provided with means to thereby enable characteristics including touch sensitivity, vibrato and aftertouch to be added selectively to any said musical tone of said sequence or to any said chord thereof by the user according to said First method and said First process of actuation; a number of said First actuator means operable as required by one or more users which First actuator means are provided to thereby play the said musical tones of each said sequence
- a said music synthesizing system including apparatus and or devices comprising: both of an operable device such as of corresponding operable apparatus and one or more corresponding programs which combine as edit control means of the said music sythesizing system; and or both of an operable device such as of corresponding operable apparatus and one or more corresponding programs which combine as edit repeater means of said music synthesizing system; and or a first foot and or manual control device adapted for actuation and control of said music data which said first foot and or manual device co- operates with control events included in a or each said sequence; and or a said first foot and or manual control device adapted to perform as a said First actuator means; means such as said programmable and or operable means to designate a or each concurrent operation and a or each operating process of the said music synthesizing system such as any used to thereby engage the said edit control means with or disengage the same from co-operation with any other apparatus and or device and or means of the said music synthes
- apparatus and or means further comprising: standardizer means for determining and then entering into store any music data indicative of individual said musical tones of a said sequence or of said sequences; said standardizer means which determines a standard value of a characteristic for any said musical tone entered or being entered therein; said standardiser means which establishes music data resultant of one or more signals and or sound waves supplied thereto which music data is especially indicative of the pitch of any corresponding musical tone supplied thereto; internal and or external sound source means for supplying one or more sound waves to said standardizer means such that a or each resultant standard value derived from one or more sound waves corresponding to a or each said musical tone supplied thereto, including in turn, and at a or each timing determined by user either via said microphone input means or via concurrent means which may be determined by means such as an input trigger means or by a final silence or by alternative steps in the standardising process; and or said internal and or external sound source means provided for supplying a or each said audio signal including
- the invention includes apparatus and or means further comprising: said programmable and or operable means such as programmable and or operable means of said standardiser means programmable and or operable by user and also co-operable with control such that functions of said standardiser means including any for enabling said music synthesising system with means to carry out both or either of non automatic and or said automatic performance of said music data may be designated by user via said attendant operating system of said music synthesizing system; said programmable and or operable means co-operable with a or each said program and or a or each said routine thereof designated from said attendant operating system by user which instructs the said standardiser means or other concurrent means to also enter and store said music data of said sequence or of said sequences which music data results from both or either of said audio signals such as said digital audio signals supplied thereto and or a or each transmitted said sound wave supplied from said internal and or external sound source means; or said music data established otherwise and or via means such as said line input means and or said microphone input means or other concurrent means when a or each transmitted said sound wave
- this invention is further provided with apparatus such as variety of means comprising the following: variety of means for actuating a or each said musical tone or a or each said chord of a or each said sequence including the data thereof while any of the said variety of means is controlled and acted upon by user such that said music synthesizing system further includes: said variety of means comprising a range of actuator means and or means of actuation as required and adapted to perform a or each logic one state or concurrent state of a or each corresponding actuation step which actuation step is produced via operation of any such actuator means or means of actuation according to said First method and said First process of actuation; or said actuator means and or said means of actuation adapted to perform a or each logic zero state or concurrent state of a non actuation step according to said First method and said First process of actuation; a or each said actuator means or said means of actuation employed to achieve aspects of output actuation which aspects include: an input voltage to commensurately control the level of a
- the present invention includes said apparatus such as variety of means which may more generally and or additionally comprise: both of either of said First actuator means and or First means of actuation co-operable with said overall command and management of said music synthesizing system; and both or either of a said First actuator means and or said First actuation co-operable with said music synthesizing system via said programmable and or operable means such that a or each said First actuator means or said First means of actuation may be operated according to any relevant said program and or routine thereof as designated from said attendant operating system; and both or either of said First actuator means and or said First means of actuation for actuating a or each said musical tone of one or more said sequences, including any chord or any chords thereof; and both or either of said First actuator means and or said First means of actuation co-operable with a or each relevant program and or each relevant routine thereof as designated via said attendant operating system such that the said First actuator means and or said First means of actuation may be adapted to play a or each
- the invention includes said apparatus thereof which further comprises: one or more piano-like keys; a or each unit further comprising said foot and or manual control device or one or more concurrent means; and or computer mouse means with one or more mouse buttons; and or said variety of means comprising one or more push buttons and or concurrent means; and or one or more breath controlled means including: breath controlled means comprising a moveable member or bearing within a hollow tube or similar means, the moveable member or bearing comprising an electronic conductor or electromagnetic means which is propelled via air flow from user which air flow travels in either a backwards or forwards direction to urge said moveable member or said bearing past or against one or more electronic or electromagnetic contact points of an open circuit such that the circuit is either made so as to thereby trigger a corresponding logic one condition or concurrent event or concurrent state, or the circuit broken to thereby achieve corresponding logic zero condition, concurrent event or concurrent state; and or breath controlled means comprising a moveable member or bearing which is propelled via air flow from user which air flow travels in either a backwards or
- the invention includes said apparatus thereof further comprising: one or more touch detector means and one or more ribbon control means; and or an energy medium co-operable with attendant sensor means; and or energy media co-operable with attendant sensor means; and or one or more percussion means; and or one or more mechanical means such as piston means; and or manual means such as means comprising a manually controlled electronic conductor which slides backwards and forwards past sensor means of an open circuit or past electronic or electromagnetic points of an open circuit in order to make and then break the same; and or manual means such as a cursor controlled means and or computer mouse means; and or powered means such as electronic means in co-operation with manual means; and or electromagnetic means; and or means such as plucked means, and or, similarly, vibratible means such as a metal string or other vibratible medium or other vibratible media used so as to produce an effect of vibration which is responsible for triggering actuation events; and or one or more vocal means co-operable with one or more electronic means such as computerised means; and or one or more means under
- the present invention also includes additional means comprising: said additional means co- operable with characteristics including assignable characteristics, which assignable characteristics are further co-operable with a process for use with said music synthesizing system, wherein a or each said musical tone or said chord of said sequence is controlled in turn and at a or each timing determined by user or users via actuators equipped with both separate and independent control of a or each said musical tone or said chord of same said sequence when each actuator such as each said actuator means of corresponding same said sequence performs both separate and independent actuation steps upon same said sequence and or audibly upon same said musical tones of same sequence, including when an assignable characteristic such as control instigated via each said actuator means thereof co-operates with different control events or with concurrent data of any said musical tone or of any said chord of corresponding said same sequence; and or said additional means further comprising first select means of said music synthesizing system used for performing the function of assigning both or either of a corresponding said actuator means and or corresponding said means of actuation to means including: one or more
- additional means further includes: means such as second select means of said music synthesizing system provided for performing the function of assigning any corresponding said actuator means or any corresponding said means of actuation to one or more corresponding voice programs or vice versa while each said voice program such as preset voice program is designated by user for use in an concurrent sound process of corresponding actuation step; means further comprising one or more local control means which local control means provides a function of said music synthesiszing system, wherein said local control or control is assignable to both or either of corresponding said actuator means and or to corresponding said means of actuation via means such as programmable means while on-off means located on means such as corresponding said actuator means or located elsewhere enables or disables said local control means of said music synthesizing, though when enabled said local control thereby permits corresponding said actuator means or corresponding said means of actuation to take over control of one or more said musical tones of a or each said sequence including one or more said chords thereof, such that corresponding said actuator means
- said additional means such as said local control means or control means, wherein both or either of corresponding said actuation means and or corresponding said means of actuation being co-operable with means such as said first select means and or said second select means and or said programmable means which may further co-operate with control characteristics as required or vice versa while said control characteristics include: said control characteristics such as data designated by user and or included in either of a corresponding said actuation step or a part thereof when a or each corresponding said sound effect is designated by user; and or when a or each corresponding said sound process and or corresponding said signal process and or corresponding said digital signal process and or concurrent process is designated by user; and or when a or each characteristic such as corresponding said tone colour or timbre, envelope and or waveform is designated by user; and or when a or each corresponding said sound FX group is designated by user; and or when a or each corresponding said voice program is designated by user.
- said control characteristics such as data designated by user and or included in either of a corresponding said
- one or more said actuator means and or one or more said means of actuation is assigned and or enabled with said local control or control when said local control or control is co-operable with the following for use with the invention, including: any one or more said sound FX designated by user; and or any one or more said sound FX groups designated by user; and or any one or more said digital processes designated by user including any one or more said digital signal processes designated by user; and or any one or more said voice programs designated by user; and or any one or more said tone colours or timbres, envelopes and or waveforms and or any similar sound characteristics designate by user for use in any concurrent actuation of said sequence or of said sequences when means such as said programmable means has been programmed by user to predetermine any co-operation between said local control or control and or corresponding control characteristics, including any said control characteristics; sound processing means comprising means for creating and or generating said tone colours or timbres, envelopes and or waveforms and or
- additional means is further co- operable with the following including: an original signal which is an inputted signal of a corresponding actuator means or of a corresponding means of actuation, or said original signal comprising both or either of an inputted signal and or a corresponding outputted signal of said actuator means or of corresponding said means of actuation which original signal may be set in either of a SIGNAL ON state or SIGNAL OFF state by corresponding said means of actuation while said original signal is in concept an initial signal which may be acted upon by other signals or impulses from any other concurrent means included in said music synthesizing system; a process of actuation for use with said music synthesizing system, wherein there is created a subdivision of the said First process of actuation in order to establish, therefore, the creation of a Second process of actuation, especially for use by two or more performers, which Second process further comprises: a first sub process of a said Second process of actuation for use with said music synthesizing system, which
- said additional means is further co-operable with the following comprising: a second sub process of actuation being a second sub process of the said Second process of actuation which second sub process is for use with said music synthesizing system and which second sub process is performed via either of a corresponding said actuator means or via corresponding said means of actuation operable by the user so as to provide said intervention and thereby act upon a first sub process of said Second process of actuation and similarly act upon any said original signal of corresponding said first sub process of said Second process of actuation when said intervention is initiated via a or each corresponding signal process of said second sub process, such that characteristics mainly of time initially under control via a said first sub process of a said Second process of actuation may be further controlled via a separate second sub process type of signal process of said Second process of actuation according to such sound characteristics as dynamics including silence, and or timbre and or frequency and or time; and a or each Second method of actuation for use with said music synth
- additional means are further co-operable with the following which include: said first sub process, which first sub process also corresponds with both of a said Second method and said Second process of actuation performed via corresponding said Second actuator means, the corresponding said Second actuator means being an initial control means of said music synthesizing system to thereby instigate a said original signal of a corresponding output actuation at a timing determined by user such that a or each corresponding actuated said musical tone or said chord of one or more said sequences may be further controlled and or articulated via one or more other actuators, audibly or otherwise, while same said original signal is controlled according to characteristics of mainly time via the said initial control means and or controlled via one or more functions of the said initial control means such as by said hold function means of the said music synthesizing system; said second sub process of corresponding said Second process of actuation performed by a said Second actuator means, said Second actuator means of corresponding said Second process being a secondary control means of said music synthesizing system to
- the present invention also with additional means and including the following: any number and or any combination of the preceding said variety of corresponding Second means of actuation co-operable with said additional means which includes: orchestral bowing means to be played by the user via method of manipulation more usually comprising mainly alternating up bow and down bow movements of a bowing means such as an electromagnetic bowing means to be applied across and upon a length such as an electromagnetic length so as to further control the actuation of a or each said musical tone and or a or each said chord of any said sequence in turn and at a or each timing determined by the user and according to said Second method and said Second process of actuation; or said orchestral bowing means may be employed for use within the said music synthesizing system as both or either of a said First means of actuation and or a said Second means of actuation; and or pressible means co-operable with one or more means of said orchestral bowing means, which pressible means is either designated to control a or each said musical tone of a or each said sequence or
- a sub system which further comprises a hand held section or peripheral unit of one or more said First actuator means and or one or more said Second actuator means to thereby control a or each said musical tone or a or each said chord of one or more said sequences in turn and at a or each timing determined by user, also according to any said method or any said methods of actuation and or according to any said process or any said processes of actuation; and a main system provided with means including sound source means and also means mainly for the generation and or storage and or reproduction of music data indicative of one or more said sequences to be played according to one or more said methods of actuation and or according to one or more said processes of actuation; and or sub system comprising an overlay means provided for interfacing with a computer or computer system or computerised means, while the computer or computer system or computerised means provides corresponding said main system to be adapted mainly or partly by computer software so as to enable computer or computer system or computerised means to perform as
- programmable and or operable means co-operable with means including: a or each device in the form of a variable pedal means thereof comprising adjustable actuators and or switch means and or concurrent means all in the form of a unit further comprising a or each pivot bar and a or each heel pedal means and or a or each heel-operated switch means and a or each toe pedal means and or a or each toe-operated switch means.
- said programmable and or operable means thereof co-operable with said attendant operating system, wherein said programmable and or operable means is provided for use in the control and designation of a or each said program and a or each said routine thereof such as for adapting the said overall command and management of said system memory and or said system control including when a or each said program and a or each said routine thereof facilitates the user to thereby perform and execute functions and or operations and or processings in relation to music, such that the said music synthesizing system is both or either programmable and or operable by one or more users;
- both or either of said programmable means and or corresponding means such as said operable means to instigate one or more means designated by user to thereby perform both and or either of functions and or operations according to any one or more said methods and or according to any one or more said processes, when said one or more means designated by user enable said music synthesizing system to thereby perform the said functions and or operations especially and or including: engage or disengage any corresponding apparatus and or device or devices for use with the said music synthesizing system including any one or more said First actuator means and or any one or more said Second actuator means; and or engage or disengage any operations allied to said methods or said processes or said actuation or one or more said functions for use with the said music synthesizing system; and or combine any number, combination and or variety of said actuator means of the said music synthesizing system and or any concurrent means of actuation thereof; and or assign any number or any combination and or any of both or either of said variety of means and or corresponding said Second actuator means of the
- the invention comprises said one or more means designated by user to enable said music synthesizing system to thereby perform said functions and or operations, also especially and including: select either a or each circuit of an OR logic function of the said music synthesizing system for use with any two or more said actuator means or, alternatively, select a circuit wherein the number of said actuators and or the number of said actuator means either concurs numerically with the designated number of said sequences of said data for actuation, or designated said sequences thereof are any number and or any combination as required by user irrespective of the number of designated said actuator means; and or control the reading, retrieving, sound processing and creation of said music data indicative of said musical tones of a said sequence or said chords thereof; and or control the reading, processing and creation of one or more said predetermined sequences of data progressions being indicative of a or each said predetermined sequence of said settings and or said parameters or concurrent data such sequential data in the form of control data for processing and or triggering a or each sound characteristic including
- the present invention with both or either of system memory and or system control thereof further includes said one or more means designated by user enables said music synthesizing system to thereby perform said functions and or operations, also especially and including: designate and or write and or edit and or generate data indicative of said musical tones of a or each said sequence and or said chords thereof so as to create a or each said sequence of said musical tones and or any said chords thereof for actuation by said music synthesizing system; and or assign the said music data indicative of a or each said sequence of said musical tones and or said chords to a store; and or determine the co-operation between any apparatus and or between any device or devices of the said music synthesizing system, and or determine the co-operation between both or either of said First actuator means and or any said Second actuator means; and or determine and or convert the status and or performance of any said actuator means and or concurrent means of actuation of the said music synthesizing system so as to become a said First actuator means or said initial control means or said secondary control
- the present invention with both or either of system memory and or system control thereof further includes said one or more means designated by user to enable said music synthesizing system to thereby perform said functions and or operations, also especially and including: adapt sound reproduction means and or performance of any apparatus and or any one or more devices of the said music synthesizing system; and or adapt any function thereof; and or set any apparatus, device or operation of the said music synthesizing system to an ON or OFF state thereof; and or control START and or PLAY and or PAUSE and or STOP operations thereof; and or select both or either of said line input means and or said microphone input means such as for use in said standardising process thereof.
- the present invention with both or either of system memory and or system control thereof further includes said one or more means designated by user to enable said music synthesizing system to thereby perform said functions and or operations, also especially and including: determine the states of control of any apparatus, devices and or of any associated operations of the said music synthesizing system; and or control the ENTER and STORE functions of the said music synthesizing system; and or determine the sound of a or each said musical tone of any said sequence or of any said chords thereof according to dynamics, timbre, duration and or frequency under control by user and or according to any one or more said sound and or said signal processes including any concurrent said digital signal process.
- the present invention with both or either of system memory and or system control thereof further includes said one or more means designated by user to enable said music synthesizing system to thereby perform said functions and or operations, also especially and including: select or de-select and or enable or disable powering of any apparatus and or device or devices of the said music synthesizing system; and or adapt said music sysnthesizing system to receive said sound waves and or said audio signals and or data of inputted tones and or data including audio data of inputted chords from said internal and or external sound source means for the creation and subsequent actuation of a or each said musical tone or said chord of one or more said sequences of the said music systhesizing system; and or select and control the said random generation means of the said music sythesizing system.
- the present invention with both or either of system memory and or system control thereof further includes both or either of said programmable means of said music synthesizing system and or corresponding means such as said operable means to instigate means such that said actuator means thereof and or concurrent means for actuating said sequences thereof may be adapted to thereby co-operate with means such as voice program means and also various other means such as means especially comprising and or including said local control means and or said sound processing means and or said signal processing means and which various other means are for use in any concurrent combination thereof and or in any concurrent arrangement thereof and for use in actuation according to said First method and or said Second method of actuation and or according to any other concurrent method of actuation and or according to said First process and or said Second process of actuation and or according to any other concurrent and or similar process of actuation.
- this invention provides embodiments of said music synthesizing system including electronic apparatus and devices thereof which may be omitted, added, selected, combined, exchanged, adapted and or employed for use with other features including other devices and or other apparatus; and or embodiments herein may be employed for use with other systems including computers and or computerised means and or computer systems; and or embodiments of said music synthesizing system including any apparatus and or devices thereof which may be adapted and or employed for use or uses including any not necessarily connected with music, the said embodiments of the invention including any apparatus and or devices thereof also extending to any new and inventive combination thus formed.
- this invention provides features of said music synthesizing system including electronic apparatus and devices thereof substantially as herein described with reference to Figures la-32 of the accompanying drawings and according to embodiments.
- the invention therefore amounts to a combination of features as described herein.
- the main structure and or overall housing of the invention comprises an outer casing made from plastic, or other suitable material (s) wherein a or each material weighs little and also offers the invention an optimum level of physical protection.
- design of the outer casing more usually resembles, remotely or otherwise, the physical appearance of some other musical instrument.
- other apparatus and or devices of this invention may also bear some physical resemblance to one or more features of one or more known and or more traditional musical instruments, though, more generally, it may also be seen that the instrument controllers of the invention have physical forms which are substantially developed, as illustrated herein.
- MIDI ports are more usually provided for MIDI sequencing with other MIDI instruments and or devices, as well as an optional MIDI THRU facility.
- the invention is provided with a tonal range of approximately C2 - C6/7.
- the invention might also comprise a selection of automatic preset rhythm beats and accompaniments to which the actuated musical tones under control by user might be played, as required; and or controllers, especially instrument controllers for performing and controlling said music data of said music synthesizing system.
- Fig. la is a structural block diagram of a first example of a music synthesizing system embodying an overall concept of the present invention.
- Fig. lb shows, conceptually, the format of a RAM memory of the invention.
- Fig. lc shows, conceptually, the format of another RAM memory of the invention.
- Fig. Id shows, conceptually, the format of a further RAM memory according to the invention.
- Fig. le shows a data progression in the form of a table of information which comprises a listing of user- modifiable data, according to the invention.
- Fig. 2 shows a flowchart which illustrates the first keying process of Fig. la.
- Fig. 3 is a flowchart which shows a second keying process of Fig. la.
- Fig. 4 is a block diagram illustrating the functional relationship between units of edit repeater and edit control means of the invention.
- Figs. 5a and 5b show a flowchart representing the standardiser' s MANUAL RECORD and or inputting routine, according to the invention.
- Fig. 6a illustrates the structure of the invention's operating system.
- Fig. 7 is a flowchart illustrating the overall AUTO 1 RECORD routine of the standardiser means, according to the invention.
- Fig. 8 illustrates "hit" positions which correspond to certain Time Points of a melody after operation of AUTO START, input trigger and AUTO STOP operations according to an AUTO 1 RECORD mode of the present invention.
- Figs. 9a and 9b depict a flowchart which illustrates the computation process carried out via system memory and or system control in response to such steps as AUTO START, AUTO STOP and input trigger operations of the invention .
- Fig. 10a shows, diagrammatically, a typical signal process of a First actuator means of the invention.
- Figs. 10b, 10c and lOd illustrate different logic states of an actuator mechanism for use with the invention.
- Fig. 11 is a flowchart which illustrates a complete actuation process as performed via a preferred example of a breath controller for use with the present invention .
- Fig. 12a is a section drawing of a moveable bearing mechanism of a breath controlled means, according to the present invention.
- Fig. 12b is a section drawing of another example of the moveable bearing principle of the invention.
- Fig. 12c shows a front view of the moveable Bearing of the present invention, as used in Fig. 12b.
- Fig. 13 shows a further example of the moveable bearing principle, according to the invention.
- Fig. 14a is a diagram which represents a First or Second output actuation process of an orchestral bowing means of the present invention.
- Fig. 14b represents a First or Second output actuation process of an orchestral bowing means performed via an up-bow step.
- Fig. 14c represents a First or Second output actuation process of an orchestral bowing means performed via a down-bow step.
- Fig. 15 represents a range of up-bow and down-bow positions of an electromagnetic bowing means upon and across an electromagnetic length of the orchestral bowing means .
- Fig. 16a shows, conceptually, the subdivision of First process of actuation into a first sub process of actuation witn corresponding first sub process type of signal process, according to the present invention.
- Fig. 16b shows a table of information which gives a listing of the principal first and second suJo process types of said Second process of actuation, along with their respective characteristics, according to the invention.
- Fig. 17a shows, conceptually, a visual display of a local control arrangement for a corresponding actuator of musxcal tones, according to the present invention.
- Fig. 17b depicts three piano-like keys set m an OR logic arrangement of the invention.
- Fig. 18 illustrates the overall functional relationship oetween units of an orchestral bowing means and other features of the present invention.
- Fig. 19 shows a block ⁇ iagram illustrating an arrangement of units both of a sub system and a mam system of the invention, and also the separate functional relationships between the individual units.
- Fig. 20 illustrates the overall mechanical arrangement of a variable pedal means of the present invention.
- Fig. 21 illustrates an overall impression of a preferred embodiment of the invention which is a keyboard instrument .
- Fig. 22 shows an instrument controller of the invention which is allied to an electric violin.
- Fig. 23 shows a further instrument controller of the invention, which is allied to a bass guitar.
- Fig. 24 shows another instrument controller of the invention which is allied to an electronic drum kit.
- Fig. 25 shows a further instrument controller of the invention which employs a slide mechanism.
- Fig. 26 shows a further instrument controller of the present invention, being manually operate ⁇ .
- Fig. 27 shows a further instrument controller of the present invention, which is foot-operated.
- Fig. 28 shows another instrument controller for use with embodiments, which is foot-operated.
- Fig. 29 shows a further instrument controller of the invention, being foot-operated.
- Fig. 30, shows a further instrument controller which amounts to a breath controlled instrument of the present invention.
- Fig. 31 shows another instrument controller also amounting mainly to a breath controlled instrument of the present invention.
- Fig. 32 shows another instrument controller of the invention, which employs piston means.
- FIG. 1 a preferred embodiment of the invention being a music synthesizing system which comprises units as shown m Figure la of the ⁇ raw gs, wherein there is depicted a structural block diagram of the preferred embodiment, being representative, concept, of the invention comprising: instrument section 1; CRT or backlit liquid crystal display 2; programmable and or operable means 3; program ROM 4; data memory RAM 5; digital-analogue conversion means 6; sound system 7; a first #1 external source 8; communication I/F 9; a second #2 external source 10; communication control means 11; system memory and or system control 12; and data ous line 13.
- the preferred embodiment therefore comprises: means for reading, retrieving, sound processing and controlling music data, which music data is provided for sound reproduction via said music synthesizing system and stored the format of a or each sequence, to include: predetermined sequence of musical tones; a random generation of successive musical tones; any other music data which is stored in a memory and concurrent with the concept of a predetermined sequence; one or more sequences of musical tones, wherein a or each said musical tone being of definite or indefinite pitch is to be played in turn and in response to an output actuation of a First actuator means, at a or each timing determined by user; said First actuator means operable by user employed to play a or each said musical tone according to a corresponding First method of actuation, wherein the said First actuator means is used to play a or each said musical tone of corresponding said sequence in turn and at a timing determined by user, or to play any said musical tone of said sequence at a or each timing determined by user; said First actuator means operable by user also employed to play a or each musical tone according
- said music synthesizing system further comprises programmable and or operable means 3 programmable and or operable by user to thereby perform the following including: instigate and execute data handling processes and functions of said music synthesizing system according to a or each program and or according to a or each routine thereof to be instigated by the user so as to edit said music data of one or more said sequences and or adapt apparatus and or devices of said music synthesizing system for either of a non automatic performance or similarly manual performance, according to said First method and said First process of actuation; and or specify any number and or any combination of said sequences for actuation according to said First method and said First process of actuation when said programmable and or operable means 3 further comprises panel controls and or mode select means for user to specify and designate any concurrent and programmable requirements of said music synthesizing system, including the number and or combination of said sequences for storage in one or more memory locations such as digital recording tracks of data memory RAM 5 for storage of said musical tones of one
- the system memory and or system control 12 of said music synthesizing system comprises: one or more means installed with a system memory for overall command and management of the said music synthesizing system either further installed with system control, or system control also for overall command and management of the said music synthesizing system installed in separate means.
- the said programmable and or operable means 3 for adapting the overall command and management of said music synthesizing system is provided to thereby instigate and execute both or either of functions and or processings in relation to music including those functions and or processings of the invention which render the performance of said apparatus and devices of said music synthesizing system in various states of control including: a manual state of control or similarly non automatic state of control such that digital clock means (not shown) including internal digital clock means (not shown) is not engaged to control the timing of a or each said musical tone of said sequence and also not engaged to control the timing of any chord of said musical tones; or an automatic state of control or similarly non manual state of control used when means such as automatic recording (not shown) and or entering means (not shown) and or storing means (not shown) and or automatic performance means (not shown) of the invention is engaged such that said digital clock means fully controls the timing and duration of musical sounds including a or each said musical tone of one or more said sequences, and or the timing and duration of any said chord
- both of the said First method of actuation and concept of a said sequence extend to a development such that any said First actuator means of instrument section 1 operable by user according to both or either of said First method of actuation and or according to said First process of actuation actuates a or each said musical tone or said chord of corresponding said sequence in turn and at a timing determined by user, including audibly (e.g.
- the said deve lopment comprising types of said sequences for use with the invention, further including: (a) a sai ⁇ predetermined sequence of said musical tones furtner comprising both of a mixture of single said musical tones also one or more said chords of musical tones; or said predetermined sequence instead comprising said chores;
- a said random generation of successive musical tones such as said random generation of successive musical tones data form further comprising: both of a mixture of single said musical tones which are concurrent with those musical tones derived from certain types of melodic scale and also one or more said chords of ⁇ sical tones wnich are also concurrent with those usica-- tones derived from certain types of melodic scale; or a sai ⁇ random generation of successive musical tones such as said random generation of successive musical tones m data form comprising said chords which are concurrent with those chords derived from certain types of melodic scale;
- a predetermined sequence of data further comprising aperiodic and or non harmonic performance data such as aperiodic and or non harmonic play data including stored events such as control events stored sequentially and used for triggering and thus playing a or each sound effect and or a or each sound characteristic to be actuated via said First metho ⁇ of actuation or via concurrent method and said First process of actuation or via concurrent process of actuation;
- any said sequences hereinbefore described, for actuation according to both of a process of actuation and also a metho ⁇ of actuation to be concurrent with both of a said First process of actuation and said First method of actuation wnere said music data such as said music data indicative of two or more musical tones is stored ways which include in different memory locations of the same said sequence and or on different tracks of the same song location, or in a concurrent arrangement such that said two or more musical tones are actuated at the same time including audibly at the same time when actuated via said First actuator means and at a timing determined by the user such as in both of a developed said First method and also a developed said First process, such that the corresponding actuations of said two or more musical tones are perceived as occurring together as a chord and or perceived audibly as occurring together and at a same Time Point and therefore as a chord during a corresponding output actuation.
- Fig. lb shows, conceptually, the format of a RAM memory of the invention, such as a digital song location 0111 or similar, for entering and storing data indicative of a predetermined single line (melodic) sequence of said musical tones, wherein a digital song location 0111 comprises, conceptually, a recording track 010 being subdivided into a plurality of memory stores at positions 011, 012, 013, 014, 015, 016, 017, 018 and 019 which are located at corresponding Time Points, each memory store to be read out according to an address.
- a digital song location 0111 comprises, conceptually, a recording track 010 being subdivided into a plurality of memory stores at positions 011, 012, 013, 014, 015, 016, 017, 018 and 019 which are located at corresponding Time Points, each memory store to be read out according to an address.
- data held at memory store 011 of corresponding Time Point 011 may comprise note number C5 and any corresponding control data to be actuated, for example, via actuator means at a timing determined by the user, and when the memory store is read out according to an address.
- data held in memory store 012 of corresponding Time Point 012 may comprise note number A5 and any corresponding control data, again, the corresponding memory store to be read out according to an address.
- data held at memory store 013 of corresponding Time Point 013 may comprise note number F5 along with any corresponding control data to be read out according to an address.
- two (or more) items of data may be held within separate memory stores of a same digital recording track, both at the same Time Point, and the corresponding memory stores read out according to an address, such that both musical tones commence and sound audibly together.
- a RAM memory of the invention such as a digital song location 0111, or similar, for entering and storing data indicative of a predetermined single line (melodic) sequence of said musical tones of indefinite pitch
- a digital song location 0111 comprises, conceptually, a digital recording track 010 being subdivided into a plurality of memory stores (as shown in Fig. lb) at corresponding Time Points, each corresponding memory store to be read out according to an address.
- a digital song location 0111 comprises, conceptually, a digital recording track 010 being subdivided into a plurality of memory stores (as shown in Fig. lb) at corresponding Time Points, each corresponding memory store to be read out according to an address.
- the data held in the memory stores of digital recording track 010 corresponds mainly to aperiodic and or non harmonic data, as opposed to musical notes.
- the data Tl (or Tone 1) 011 (which might be generated from a stored plurality of user- modifiable non harmonic tones) has a different tonal quality to T6 (Tone 6) 012.
- T6 Tone 6
- the tonal qualities of T3 015 and T3 018 are the same.
- a predetermined sequence is, in fact, a predetermined sequence of data being indicative of said musical tones such as musical tones of indefinite or non harmonic pitch, each musical tone being held in a separate memory store and at a corresponding Time Point, to be read out according to an address.
- Fig. Id shows, conceptually, the format of a RAM memory of the invention, such as a digital song location 0111, or similar, for recording and storing data indicative of a predetermined double line (harmonic) sequence of said musical tones, wherein a digital song location 0111 comprises, conceptually, a digital recording track 010 and also a parallel digital recording track 0100, both subdivided into a plurality of memory stores such that each Time Point has two (or potentially more) corresponding parallel memory stores.
- Time Point Oil has two corresponding memory stores, the first memory store Oil corresponding to digital recording track 010, and the second memory store 0110 corresponding to digital recording track 0100.
- the present arrangement allows the data of two musical tones to be actuated via the same actuator means such as at a timing determined by the user, and at a same Time Point 011 (as well as share the same control data) when the corresponding memory stores are read out according to an address while the two corresponding musical tones are actuated in an arrangement wherein both musical tones are perceived as audible at the same Time Point 011 when the corresponding memory stores are read out according to an address.
- Fig. le shows a table of information which is a listing of user-modifiable data amounting to a predetermined sequence (such as to be used in a computer program) of VDF (variable digital filter) settings and or parameters (VDF1 - VDF9) for processing a or each inputted musical tone, which settings and or parameters (as listed in column 0113) of the said data progression are queued via control to correspond with each separate actuation of a corresponding inputted musical tone (as listed in column 0114) such as at a or each timing determined by user.
- VDF variable digital filter
- a step 0101 the VDF1 setting of column 0113 is queued to process a corresponding musical tone MTI which is shown in column 0114, wherein VDF1 of column 0113 filters MTI of column 0114 with an assignable and or user- modifiable tonal quality (timbre) from a data bank of various timbres such that a sound charactristic which is designated by user is added to MTI in the corresponding actuation of step 0101.
- timbre assignable and or user- modifiable tonal quality
- the VDF2 setting of column 0113 is automatically queued (after previous step) to process a corresponding musical tone MT2 (column 0114) in a subsequent actuation, wherein VDF2 of column 0113 filters MT2 of column 0114 with an assignable and or user-modifiable tonal quality (timbre) from a data ban.c of various timbres such that a sound characteristic which is designated by user is added to MT2 during the corresponding actuation of step 0102. Therefore, according to Fig.
- the actuation steps are performed similarly from 0101 through till 0109, with corresponding (and varying) sound characteristics (of timbre) added to each said musical tone (MTI - MT9) of a said sequence, or added to each musical tone (MTI - MT9) of a spontaneous selection of musical tones performed at a or each timing determined by user, such as via an external source, which spontaneous selection of musical tones is not necessarily held or stored in a memory.
- a data memory such as the data memory (RAM) 5 or similar may also be used to store and or accommodate the data of said sequence or said sequences of said musical tones for actuation such as by any one or more First actuator means of the invention.
- RAM data memory
- said First actuator means is co- operable with said First process of actuation while said First process further correlates with said First method of actuation and vice versa, such as when the resulting correlation performs during an operation wherein said two or more musical tones are actuated at the same time and at a timing determined by the user, and commence audibly at the same time and in response to a corresponding input signal of an output actuation of said First actuator means.
- a or each said First actuator of instrument section 1 further comprises means for controlling the sound of a said said musical tone or said chord of said sequence according to dynamics, timbre, and frequency, such that the said music synthesizing system is further provided with means to thereby enable characteristics including touch sensitivity, vibrato and aftertouch to be added selectively to any said musical tone of said sequence or to any said chord thereof by the user according to said First method and said First process of actuation.
- the instrument section 1 may comprise a number of said First actuator means operable as required by one or more users to thereby play the said musical tones of each said sequence while each said First actuator means within the circuit is used to actuate each said musical tone or said chord in turn and at a or each timing determined by the user, including audibly in turn and at a or each timing determined by user such that each said First actuator means within the circuit plays a said predetermined sequence, or a random generation, or a said sequence which is concurrent with the concept of a said predetermined sequence.
- the program ROM 4 may store programs including a musical tone- synthesizing program for synthesizing musical tone data in conjunction with, for example, a waveform memory such as the same stored in a memory device (not shown) comprising a plurality of waveform data.
- the communication control means 11, having A/D to D/A and or D/A to A/D conversion performance is adapted to receive and co-operate with externally inputted control signals of a first #1 external source 8 and a second #2 external source 10 which are linked via the communication I/F 9, both external sources (8, 10) being further adapted to co-operate with each other via the same communication I/F 9.
- the output signals of a or each actuator of instrument section 1 may be converted via a D/A conversion means 6, and then directly outputted to the invention's sound system 7.
- the present embodiment as shown in Fig. la, further comprises a CRT or backlit liquid crystal display 2 for visual communication, information and programming.
- a data bus line 13 of the invention carries signals thereof.
- the data memory (RAM) 5 which is, for example, a sequential memory, stores a selection and or combination of said sequences indicative of said musical tones in data form and or any said chord or chords thereof for subsequent sound reproduction.
- a or each actuator means (not shown) of instrument section 1 may take the form, for example, of three piano-like keys (K171, K173, K175) which provide the or each input and or output signal of a or each corresponding output actuation of any musical tone or chord pro ⁇ uced via said First method and a said First process of actuation.
- the three First actuator means (K171, K173, K175) might also comprise a lesser or greater plurality or number, or constitute any one or more other types of First actuator means or similar means of actuation according to examples herein described.
- FIG. 2 shows a First keying process of the invention wherein any of the said piano-like keys K171, K173, K175 is depressed at a or each timing determined by the user to create a key-on condition or ON-EVENT as verified by touch detection means (not shown) to thereby produce a user-input code (e.g. key code) .
- the ON-EVENT also instructs the system memory and or system control 12 to read out a corresponding event of the music data (e.g. of MIDI data corresponding to said musical tone of a said sequence stored m a digital recording track) from, for example, an address via a first, second or third channel of a work register (l).
- END key-off
- the system memory and or control 12 awaits the next key-on (ON-EVENT) condition, or for some other user input.
- three said predetermined said sequences (e.g. corresponding to three parts of the same song) have been written and stored into three separate memory locations, such as three digital recording tracks of a sequential memory which sequential memory also corresponds to sequential memory such as a data memory (RAM) 5.
- a key code for each of the keys K171, K173, K175 is set in a corresponding register KC1, or KC2 or KC3 after a key-on event has occurred, via a or any piano-like key set in a logic 1 (ON) state.
- touch detection means (not shown) detects ON/OFF states and velocity of depression or release of a or each key, and further supplies signals indicative of sensed values to system memory and or control 12.
- step 22 determines whether the key code set in register KC1, KC2 or KC3 at a or each timing determined by user corresponds to music data set in a corresponding (i.e.
- corresponding to KC1, KC2, KC3) memory location such as a digital recording track which corresponds, for example, to a data memory (RAM) 5, and or to a number set in a corresponding register ML1, ML2 or ML3, when music data of any said musical tone of the corresponding memory location exists, for example, in a data memory (RAM) 5, as shown at step 22. If no such data is found, the keying process ends with a non actuation event at key release (END) 25. If, however, the data of a stored said musical tone is found in the corresponding memory location at a step 22, then assignment of a tone generating channel (e.g.
- tone generation sound reproduction of said musical tone
- step 23 tone generation (sound reproduction of said musical tone) performed starting at the oldest time point according to the accumulation of musical tone data in a register, since, in this example, up to three musical tones may be concurrently generated (reproduced) in the present process, wherein said musical tone data indicative of any said musical tone may be assigned to a first, second or third channel, and a number of the allocated channel set in the work register (i) .
- any other data for executing a tone generation may be set in a register of the sound source, such as (ich) of an (i) channel il, i2, i3.
- the present routine of Fig. 2 is completed when a pianolike key of instrument section 1 is set to logic 0 (OFF) or a similar state at END 25.
- each of the such may be assigned (e.g. via MIDI channels) to play (actuate) one corresponding said sequence and only one of the three said sequences of music data (e.g. corresponding to play data) stored in three separate locations of the data memory (RAM) 5 or other RAM- based sequential memory.
- the invention comprises five First actuator means in the instrument section 1, then the concurrent number of said sequences could be written and assigned (e.g.
- any specified number of First actuator means e.g.
- piano-like keys) of the instrument section 1 may be assigned, for example, to play (actuate) the said music data of a concurrent number of sai ⁇ sequences stored m separate locations of the data memory (RAM) 5, when each said actuator means is both assigned to a corresponding said sequence, and assigned to only one of the said sequences of music data, according to said First process and said Second process of actuation, thereby providing the invention with polyphonic capability, wherein according to the present example, each piano-like key (playable by using individual finger key technique) within the plurality, actuates the music data of only one of the corresponding said sequences within the overall number, each said sequence, for example, amounting to an independent part of the same musical composition.
- the said instrument section 1 of said music synthesizing system may therefore comprise means of actuation operable by the user provi ⁇ ed for actuating a or each said musical tone or said chord in turn and including audibly in turn of said sequence such as a said predetermined sequence, or a said random generation of successive musical tones, or a said sequence which is concurrent with the concept of a said predetermined sequence, when actuation is according to said First method and said First process of actuation while said means of actuation further comprise each said First actuator means connected either via the OR logic function or connected via concurrent means to an output such that operation of any said First actuator means within the circuit has the same effect as producing a corresponding input signal of an output actuation since a or each corresponding said musical tone thereof or a or each corresponding said
- the flowchart Fig. 3 of the drawings shows the routine of a second keying process of the invention according to the present embodiment, wherein any one of the said keys K171, K173, K175 may be depressed at a timing determined by the user to create a key-on condition, or ON- EVENT as verified by touch detection means (not shown) , to thereby produce a user-input code (e.g. key code).
- the ON- EVENT also instructs the system memory and or system control 12 to read out a corresponding event of the data (e.g. of MIDI data corresponding to said musical tone of a said sequence stored in a digital recording track) from, for example, an address via a channel of a work register (i) .
- END key-off
- the system memory and or system control 12 awaits the next key-on (ON- EVENT) condition, or for some other user input.
- RAM data memory
- actuator means this case piano-like keys
- a key code for each of the keys K171, Kl 7 3, R175 is set a register KC1, KC2 or KC3 after a key-on event has occurred, via a key set in logic 1 (ON) state.
- touch detection means (not shown) detects ON/OFF states and velocity of depression or release of a key, and further supplies signals indicative of sensed values to system memory and or control 12.
- step 32 determines whether the key code set in register KC1, KC2 or KC3 corresponds to music tone data set, turn, in a corresponding memory location such as a digital recording track which may also correspond, for example, to a data memory (RAM) 5, and or to a number set, for example, the register ML1, and whether data of any said musical tone of ML1 exists a memory such as in data memory (RAM) 5, as shown at step 32. If no such data is found, the keying process ends with a non actuation event at key release (END) 35. If, however, the data of a stored said musical tone is found the corresponding memory location at a step 32, then assignment of a tone generating channel (e.g.
- a tone generating channel e.g.
- tone generation sound reproduction of said musical tone
- only one said musical tone may be concurrently generated (reproduced) the present process, and said musical tone data indicative of any tone assigned only to a single channel of a wor ⁇ register (I) .
- any other data for executing a tone generation may be set a register of the sound source, such as (ich) of an (1) channel.
- the present routine of Fig. 3 is completed when a piano-like key of instrument section 1 is set to logic 0 (OFF) or a similar state at END 35.
- the system memory and or system control 12 detects an input signal and or a user-input code, which also amounts to an enabling signal (to enable a ouffer or similar means) sent through the circuit.
- registers are read serially to detect any digital information stored therein, such as the pitch (note numoer) of any said musical tone to be reproduced; the system memory and or system control 12 outputs the digital information onto the data bus or similar means wnich is, turn, held up by the corresponding buffer or similar means for a time period that matches the duration for which a key is depressed.
- the resulting digital signal is then D/A converted to a control signal which then instructs, for example, the corresponding voltage-controlled oscillator of a hardware sound source to perform at the given voltage, via the sound processing stage.
- apparatus and or devices of said music synthesizing system comprising: both of an operable device such as of corresponding apparatus and one or more corresponding programs which combine as edit control means of said music synthesizing system; and or both of an operable device such as of corresponding operable apparatus and one or more corresponding programs which combine as e ⁇ it repeater means of said music synthesizing system; and or a first foot and or manual control device adapted for actuation and control of said m ⁇ sic data which sai ⁇ first foot and or manual device co-operates with control events included n a or each said sequence; and or a said first foot and or manual control device adapted to perform as a said First actuator means.
- Fig. l ⁇ there is shown a first (#1) external source 8 which corresponds to the foot and or manual control device of the edit control means, and also a second (#2) external source 1C which corresponds to the foot and or manual control device of the edit repeater means.
- the edit control means and the edit repeater means both comprise programs, for example, transiently installed m the invention's attendant operating system of the corresponding system memory and or system control 12, the programs or program (transient or other) being controlled by external input control signals of the external foot and or manual devices (8, 10).
- the edit control means may be interpreted as being the grouping and or overall co ⁇ operation between elements including tne first foot and or manual control device 8 and corresponding edit control program installed, for example, the system memory and or system control 12 of the invention, and or any output signal (s) resulting from the said groupmg and or said overall co-operation.
- the edit repeater means may be regarded as being the grouping and or overall co-operation between elements including the second foot and or manual control device 10 and a corresponding edit repeater program perhaps also installed transiently the said attendant operating system of the system memory and or system control 12 of the invention, and or any output signal (s) resulting from that said grouping and or from that said overall cooperation.
- the block diagram illustrates the whole arrangement of said overall co-operation and control between an edit control program 14, a communication I/F 9, a first foot and or manual control device 8, a communication control means 11, an edit repeater program 17, a second foot and or manual control device 10 and also a system memory and or system control 12, according to an embodiment of the invention.
- the edit control program 14 and the edit repeater program 17 may be controlled via a communication I/F 9, since signals such as MIDI signals may be sent (e.g. via a foot and or manual control devices) to enable either program from the system memory and or system control 12 via the communication I/F 9.
- the communication I/F 9 therefore provides a means of co-operation between the units as shown in Fig.
- the whole configuration of units as shown in Fig. 4 may be set up via the said attendant operating system (not shown) of the said system memory and or system control 12. Further, certain units as represented in Fig. 4 may be left out of the overall configuration and or the edit repeater means (grouping) enabled to override the edit control means (grouping) or vice versa.
- the said system memory and or system control 12 might run an optional program (installed) therein to replace the said edit repeater program 17 and or the said edit control program 14, thereby providing instead a single program which combines routines and features of both the said edit control program 14 and the said edit repeater program 17.
- means such as said programmable and or operable means 3 of the invention is provided to designate a or each concurrent operation and or a or each operating process of the said music synthesizing system such as any used to thereby engage the said edit control means with or disengage the same from co-operation with any other apparatus and or devices and or means of the said music synthesizing system, including when said apparatus and or devices thereof further comprise a said first foot and or manual control device 8 operated according to either of an independent process or in co-operation with a or each external input signal such that the said first foot and or manual control device 8 instigates a corrective function when instructing an edit control or control to shift to predetermined points m a or each said sequence at a or each timing determined by user.
- the said edit control means co-operable with a or each skip-hold function means is provided for use at timings determined by user such that the corresponding control event of a or each said musical tone of a said sequence or of any chord thereof actuated by said First actuator means remains uncontrolled by said edit control means until said first foot and or manual control device 8 of said edit control means is engaged by user to thereby instigate and or instruct edit control or control to skip to the position of the next said control event within the sequence; and or said edit control is engaged so as to co-operate with and maintain control of any concurrent control event of a corresponding said musical tone or corresponding said chord via a hold function means (not shown) of said music synthesizing system which is corresponding said chord of any said control event within a or each said sequence may be repeatably actuated at each timing determined by user until said hold function means is disengaged from any said control event of a corresponding said musical tone and or of a corresponding said chord, at a timing determined by user.
- a said edit repeater means comprises a said operable device being a second foot and or manual control device 10 being adapted via means such as said programmable and or operable means 3 while said edit repeater means (grouping) is provided for controlling music data of said sequence such that the output actuation of the corresponding input and or output signal of the said edit repeater means (grouping) co-operates with corresponding control events included a or each said sequence, and or vice versa, on each occasion tne corresponding said foot and or manual control device 10 is either temporarily set to logic one or concurrent state at a or each timing determined by user, while, if present, a said edit repeater means (grouping) is adapte ⁇ via means such as said programmable and or operable means 3 to thereby instigate a function such that control shifts backwards or forwards through a or each said sequence to said predetermined points of a or each said sequence response to each step when the corresponding said foot and or manual control device
- said edit repeater means (grouping) is provided to thereby instigate a function such that control skips to the position of the next control event m a or each said sequence response to each step when the corresponding said second foot and or manual control device 10 is temporarily set to either of a logic one or concurrent state at a or each timing determined by the user, while said edit repeater means (grouping) may be adapted to co-operate with said edit control means (grouping) of said music synthesizing system as required when designation means such as said programmable and or operable means 3 co-operable with the attendant operating system of said music synthesizing system is employed to designate such a co-operation.
- said edit repeater means (grouping) is provided provided for instructing an edit control or control of the said music synthesizing system to snift to said predetermined points the said music data of a or each said sequence, the said predetermined points corresponding to the beginnings of various sub sections of a or each said sequence to be played and or repeated any order and commencing at any timing as determined by the user via operation of the said second foot and or manual control device 10 of said edit repeater means (grouping) or via operation of concurrent means.
- the invention includes apparatus and or means further comprising: standardiser means for determining and then entering into a store any music data indicative of individual said musical tones of a said sequence or of said sequences; said standardiser means which determines a standard value of a characteristic for any said musical tone entered or being entered tnerein; said standardiser means which establishes music data resultant of one or more signals and or sound waves supplied thereto which music data is especially indicative of the pitch of any corresponding musical tone supplied thereto.
- the invention including said apparatus and or means thereof provides internal ana or external sound source means for supplying one or more sound waves to said standardiser means such that a or each resultant standard value derived from one or more sound waves corresponding to a or each said musical tone supplied thereto, including in turn, and at a or each timing determined by user either via said microphone input means or via concurrent means may be determined by means such as an input trigger means or by a final silence or by alternative steps in the standardising process; and or said internal and or external sound source means provided for supplying a or each said audio signal including a or each said digital audio signal to said standardiser means in turn and at a timing determined by user, such as when audio signal corresponding to said musical tone is supplied either singularly or when each said audio signal is supplied simultaneously as a group thereto at a timing determined by user either via said line input means or via concurrent means, till corresponding end of signal event or concurrent event in standardising process ensues, such that a or each said standard value derived from a or each said audio signal including a or each said digital audio signal
- the invention including said apparatus and or means thereof further provides said programmable and or operable means 3, which said programmable and or operable means 3 such as programmable and or operable means of said standardiser means is programmable and or operable by user and also co-operable with control such that functions of said standardiser means including any for enabling said music synthesizing system with means to carry out both or either of non automatic and or said automatic performance of said music data may be designated by user via said attendant operating system of said music synthesizing system; and or said programmable and or operable means 3 co-operable with a or each said program and or a or each said routine thereof designated from said attendant operating system by user which instructs the said standardiser means or other concurrent means to also enter ana store said music data of said sequence or of said sequences which music data results from both or either of said audio signals such as said digital audio signals supplied thereto and or a or each transmitted said sound wave supplied from said internal and or external sound source means; or said music data established otherwise and or via means such as said line input means and or said
- the invention including said apparatus and or means thereof further provides said programmable and or operable means 3 co-operable with a or each said program and or a or each said routine thereof designated from said attendant operating system by user to instigate functions of the said standard ⁇ ser means such that either no said time elements are programmed into the data indicative of a or each said musical tone or a or each said chord of one or more said sequences for actuation according to said First method and said First process of actuation, or no said time elements programmed into data indicative of a or each said musical tone or of a or each said chord of one or more said sequences until at a subsequent editing stage as required by user.
- said programmable and or operable means 3 co- operable with control of said standardiser means provided to instigate one or more functions and or one or more operations of said music synthesizing system via the enablement and execution of a or each said program and or a or each said routine thereof as designated from said attendant operating system while said one or more functions and or one or more operations include when control cooperates with variable automatic digital clock means such that the same is adapted to function at a tempo or at tempos determined by the user including during both or either of said automatic performance of said musical tones, including said chords, and or during said automatic performance of any other concurrent said music data entered and or stored into a sequential memory means (such as data memory RAM 5) as automatic performance data such as via standardiser means of said music synthesizing system.
- a sequential memory means such as data memory RAM 5
- said apparatus and or means thereof which further provides said programmable and or operable means 3 co-operable with a or each program and or a or each routine thereof designated via said attendant operating system by user to thereby adapt said music synthesizing system to play back the music data of a or each said musical tone or said chord of one or more sai ⁇ sequences such as one or more said sequences established via said standardiser means and stored therein, while said music synthesizing system is in said automatic state of control or similarly m said non manual state of control.
- a routine of the present invention will be fully described, which is more specifically applicable to the inputting (entering) of music data indicative of musical tones from an external source, the inputted music data being, m the present example, of such that definite pitch may be determined thereof. Also, the routine described in Figs.
- routine describe ⁇ might incorporate, for example, the use of a concurrent means such as a sampler means for receiving data indicative of musical tones transmitted from internal and or external source or concurrent means, with the modification of data (such as data including aperiodic and or non harmonic data) such as a or each inputted musical tone from said internal and or external sound source or concurrent means performed via any suitably concurrent method or means of the invention, as required by user.
- a concurrent means such as a sampler means for receiving data indicative of musical tones transmitted from internal and or external source or concurrent means, with the modification of data (such as data including aperiodic and or non harmonic data) such as a or each inputted musical tone from said internal and or external sound source or concurrent means performed via any suitably concurrent method or means of the invention, as required by user.
- RECORD i.e. determine, enter and store data
- the initial part of the ensuing process sets mic at 503 and or lme(s) at 502 order to receive an external sound wave and or one or more audio signals.
- the external lme(s) and or mic source is verified, the sound data or sound wave is transmitted from the external source to the standardiser' s receiving apparatus (e.g. mic/sensor if an acoustic sound) or similar means at 505. Or, if no such verification of external mic/line source is established, the routine returns before 501.
- MC Musical Cents
- a digital value may be calculated at 507, or at a later stage. If, at 508, a detection value for the inputted data has been verified as found at 508, then, for example, the detection value may be set in a register DTV at 509. The detection value in DTV is then matched (via a reading/scanning process) at step
- a DTV matches any of these stored values at 510, then a note number is designated at
- the routine returns to 506.
- the newly created NN may be audibly previewed (by processing initiated, for example, via piano-like key) at 512, then the corresponding data set in the data memory (RAM) 5 of the invention at 513 (e.g. via a MIDI channel) for storage and designation of the note number (NN) to a position within said sequence.
- the data resulting from a newly stored note number (NN) stored in a memory at 513 such as the memory of data memory (RAM) 5 is incremented at 514 and the counter set or reset. If the allocation of data for creating a sequence of stored musical tones of definite pitch is complete at 515, then the routine ends at 516, and an option to repeat routine, or access alternative mode(s) provided.
- AUTO 1 RECORD i.e. determine, enter, store
- AUTO START e.g. synchronous clock
- 701 concurrent data installed (e.g. Time Cents) in the memory and at corresponding Time Points at precisely (or approximately) the same moment a sound wave is transmitted.
- 702 verifies whether step 701 has been carried out. If yes, timer continues, and at step 704 inputted data is verified. If no such data received then either quit mode at 711 or restart routine from after 700.
- a fresh sound wave should be immediately transmitted and thus concurrent data installed (e.g. Time Cents) m the memory and at a new corresponding Time Point.
- the TRIG (input trigger) operation is verified (i.e. data has been verified as received data installed at corresponding new Time Point the data is automatically digitally stored at 707 and the timer at 703 incremented.
- the loop is continued until AUTO STOP has been executed at 705.
- the AUTO STOP process is verified at (708 since data allocation is deemed complete), decision to terminate the present routine is taken at 709.
- the rhythmic use of the standardiser' s input trigger when employed in AUTO 1 RECORD i.e. determine, enter, store) 0/144 and also the creation and use of resulting data will now be described, with reference to Figs. 7, 8, 9a and 9b of the drawings, beginning first with Fig.
- a stave of music 800 representing a melody is to be vocally inputted via the invention's AUTO 1 RECORD (i.e. determine, enter, store) 0/144 process as shown in Fig. 7 as the music reads in Fig. 8.
- the melody is suitably rehearsed and initially sung (without vibrato) into the mic/sensor (not shown) at a considerably slower tempo, then speeded up (via tempo setting of digital clock) and a faster tempo permanently (or otherwise) set in preparation for auto performance.
- the numerals 801 through to 808 represent musical tones with time values to be recorded vocally via the AUTO 1 RECORD (i.e.
- the vocal tones 803 through till 808 are performed similarly and also the input trigger similarly employed in order to input data at remaining Time Points TP3 through till TP8. Therefore, referring to Fig. 9a (wherein the input stage 900 assumes 700 of Fig. 7) the first Time Point 901 is inserted when the AUTO START is executed, and the value (e.g. in Time Cents) set in a register TP. The counter is also set. When the input trigger proper is employed for the first time at 902 the next value (e.g. in Time Cents) of a Time Point is set in a register (N)P.
- N register
- a computation Dl is performed (such as TP + NP in Time Cents) via, for example, a work channel (d) then the duration found and set in a register Tl, based on the Dl calculation, after which the counter is incremented.
- a new T(n) and D(n) is created as 904 and 905 are repeated in a loop until the last vocal tone 808 (as shown in TP8 of Fig. 8) is performed, and then finally 809 (of Fig. 8) executed via AUTO STOP function, to produce the final Time Point T9 as shown at 705 of Fig. 7.
- Fig. 9b shows similarly at 906 the last Time Point T9 in accordance with the routine as shown at 705 of Fig.
- Fig. 9b shows similarly at 906 the last Time Point (inputted via AUTO STOP function) set in a register LP, and then at 907 the last computation of the duration L/D(n) with the final Time duration L/T(n) as performed.
- the routine ends 908 after the last computation at 907.
- the resulting data in the present example amounts to that whereby (n) number of Time Points provide START and STOP timings initially of inputted vocal tone, with a corresponding duration Dl, D(n), L/D(n) and also pitch (note) number (s) calculated from detection values of a process that accompanies the present routine similar to that described in Figs.
- the FINAL SILENCE process may be used association with the mic input means, or, alternatively, the tones (note numbers) selected from a store (data bank) .
- any note recorded is unaffected during playback since duration will be calculated (e.g. in Time Cents) according to the positions of data installed at the various Time Points, the installed data resulting from operation of note determining method.
- FIG. 6a and 6b show operating modes and corresponding options of the invention' s operating system.
- the modes and corresponding options are organised, conceptually, as shown, into two ma groups, one of which relates to playing and performing, the other devoted, mainly to a set of options and to methods of operation allocated to the invention with particular regard to the creation of said sequences, enablement of apparatus and devices and also control of sound reproduction, according to embodiments.
- Fig. 6a and 6b The modes and corresponding options are organised, conceptually, as shown, into two ma groups, one of which relates to playing and performing, the other devoted, mainly to a set of options and to methods of operation allocated to the invention with particular regard to the creation of said sequences, enablement of apparatus and devices and also control of sound reproduction, according to embodiments.
- the preferred arrangement and types of operating modes of said music synthesizing system with corresponding options as shown in Figs. 6a and 6b, and according to one or more embodiments of the present invention may be designated by the user via operable and or programmable means 3 for designating each specific operating state according to installed programs under command of the system memory and or system control 12 and visually accessible to the user via CRT or backlit liquid crystal display 2.
- the principal operating modes and corresponding options which apply more generally to embodiments include those hereunder described with particular reference to Figs. 6a and 6b of the drawings, and commencing with Fig.
- Any note (said musical tone) data "recorded" via the standardiser means (when the same is set m a manual or similarly non automatic state) is determined, entered and stored, the note data being further indicative of one or more note numbers (as previously described m Figs.
- the corresponding operating program (or programs) installed in the system memory and or system control 12 effectively sets up the invention as a musical instrument with polyphonic sysnthesising capabilities.
- the corresponding program is further assigned to also enable buffers and switch in a specific grouping of logic gate circuits via programmable and or operable means 3 from an overall configuration of the such.
- the present option provides the means (e.g. installed program or programs) wherein, for example, an actuator means of one system set to M12 may access the data of a said sequence from an external system.
- the invention also includes apparatus for use with said music synthesizing system comprising a variety of means for actuating a or each said musical tone or a or each said chord of a or each said sequence including the data thereof while any of the said variety of means is controlled and acted upon by user such that said music synthesizing system further includes: said variety of means comprising a range of actuator means and or means of actuation as required and adapted to perform a or each logic one state or concurrent state of a or each corresponding actuation step which actuation step is produced via operation of any such actuator means or means of actuation according to said First method and said First process of actuation; or said actuator means and or said means of actuation adapted to perform a or each logic zero state or concurrent state of a non actuation step according to said First method and said First process of actuation.
- a or each said actuator means or said means of actuation employed to achieve aspects of output actuation which aspects include: an input voltage to commensurately control the level of a corresponding output signal which input voltage is also for primarily modulating one or more sound characteristics of said musical tones and or of any said chord of said sequence or said sequences; the instigation of a signal process which triggers either of said logic one states including any concurrent state, or triggers said logic zero states including any concurrent state of a corresponding actuator mechanism which corresponding actuator mechanism may comprise means such as switch means further comprising: one moveable contact fixed to a single pole; two or more contacts fixed to a single common pole, the same to move rotatably about a pivot or said pole to move otherwise; or any concurrent means for enabling said switch means to achieve said logic one or said logic zero states, or concurrent states.
- the invention including said apparatus thereof is provided with said variety of means which may more generally and or additionally comprise: both or either of said First actuator means and or First means of actuation co-operable with said overall command and management of the said music synthesizing system; and both or either of said First actuator means and or said First means of actuation co-operable with said music synthesizing system via said programmable and or operable means 3 such that a or each said First actuator means or said First means of actuation may be operated according to any relevant said program and or routine thereof as designated from said attendant operating system; and both or either of said First actuator means and or said First means of actuation for actuating a or each said musical tone of one or more said sequences, including any chord or any chords thereof; and both or either of said First actuator means and or said First means of actuation co-operable with a or each relevant program and or each relevant routine thereof as designated via said attendant operating system such that the said First actuator means and or said First means of actuation may be adapted to play a or each said
- the invention including said apparatus thereof, further comprises: one or more piano-like keys; a or each unit further comprising said foot and or manual control device or one or more concurrent means; and or computer mouse means with one or more mouse buttons; and or said variety of means comprising one or more push buttons and or concurrent means.
- breath controlled means comprising: breath controlled means comprising moveable member or bearing within a hollow tube or similar means, the moveable member or bearing comprising an electronic conductor or electromagnetic means which is propelled via air flow from user which air flow travels in either a backwards or forwards direction to urge said moveable member or said bearing past or against one or more electronic or electromagnetic contact points of an open circuit such that the circuit is either made so as to thereby trigger a corresponding logic one condition or concurrent event or concurrent state, or the circuit broken to thereby achieve a corresponding logic zero condition, concurrent event or concurrent state; and or breath controlled means comprising a moveable member or bearing which is propelled via air flow from user which air flow travels in either of a backwards or forwards direction to urge said moveable member or bearing past or against one or more electronic or electromagnetic points of an open circuit such that the circuit is made in order to thereby trigger a logic one condition or concurrent event or concurrent state of an actuation step, or the circuit broken to
- breath controlled means comprising a moveable member or bearing such as an electronic conductor which is propelled via air flow action such that said first compressible means contracts against the resulting pressure established by said moveable member when the same is urged to move against the fixed said first compressible means in response to air flow from user so as to close a circuit and thereby trigger a logic one condition or concurrent event or concurrent state of an actuation step while the circuit is made when said first compressible means contracts to thereby facilitate the completion of the circuit between said moveable member and also the fixed electronic or electromagnetic points of an open circuit; or the original shape of said first compressible means becomes restored when said air flow is relinquished and corresponding said pressure ceases such that the said moveable member is urged in the opposite direction and away from said fixed electronic or electromagnetic points of said open circuit by the said first compressible means when the circuit is broken and a corresponding logic zero condition or concurrent event or concurrent state of a non actuation step achieved; and or breath controlled means comprising a move
- breath controlled means comprising a microphonic means which responds to sound waves especially produces when breath of user blows against or near to the detecting vicinity of said microphonic means such that a logic one condition or concurrent event or concurrent state of an actuation step is triggered and both or either of a corresponding voltage level and or corresponding level of signal established when said microphonic means detects the said sound wave; or a logic zero condition or concurrent event or concurrent state of a non actuation step is achieved when said microphonic means fails to detect said sound wave.
- the invention including said apparatus thereof further comprises: one or more touch detector means and or one or more ribbon control means, wherein a or each touch detection means and or a or each ribbon control means outputs, for example, a default value in the case of a such as a non touch condition, and thus a detection value when operated, such that, respectively, there is provided the necessary conditions for a logic 0 status (OFF) and also a logic 1 status (ON) wherein the logic 1 status triggers an actaution event.
- the sensitive impact (velocity) upon, for example, a linear member (length) of a ribbon control means is also outputted as a detection value in order to create a modulation of the signal such that sound characteristics including volume may be added and or controlled by user.
- a similar process resulting from sensitive impact (velocity) upon touch detection means produces a similar effect; and or an energy medium co- operable with attendant sensor means, wherein the detection of energy via sensor means creates a logic 1 condition, and, therefore, a detection value for the setting (ON) of an actuation mechanism (e.g. switch) or, alternatively, a default value (for OFF) when a lower energy level or no energy level is detected by sensor or similar means.
- the level of the input voltage e.g.
- a or each drum pad or similar means outputs, for example, a default value in the case of a non contact condition, and a detection value when operated (e.g. via said beater means) thus, respectively, providing the necessary conditions for a logic 0 status (OFF) and also the logic 1 status (ON) for instigating a First actuation event which is concurrent with said First method and or said First process of actuation.
- the touch sensitive impact (velocity) upon a or each pad is also outputted as a detection value in order to create a modulation of corresponding signal such that sound characteristics including volume may be added and or controlled as required by user; and or one or more mechanical means such as piston means; and or manual means such as means comprising a manually controlled electronic conductor which slides backwards of forwards past sensor means of an open circuit or past electromagnetic means or past electronic or electromagnetic points of an open circuit in order to make or break the same; and or manual means such as a cursor controller means and or computer mouse means; and or powered means such as electronic means in co-operation with manual means; and or electromagnetic means; and or means such as plucked means, and or, similarly, vibratible means such as a metal string or other vibratible medium or other vibratible media used so as to produce an effect of vibration which is responsible for triggering actuation events.
- the present apparatus acts, for example, as a push-to-make switch of an actuator mechanism, the ON position providing a logic 1 setting for the corresponding actuator mechanism, and the OFF position providing the condition for logic 0 status.
- the present means of actuation is thus operable in a similar fashion to one or more piano-like keys as employed according to embodiments of the present invention, and similarly functional with respect to any such piano-like key ( s ) of the invention, also in relation to the production and or control of sound characteristics, including volume; and or said plucked means and or similarly vibratible means such as a metal string or other vibratible medium or other vibratible media which creates any required state of actuation when the vibratible medium (or a part thereof) vibrates in a magnetic field, thus causing an electronic signal to be generated, which state also sets the detection value of a logic 1 (ON) condition, and a default value when vibratible medium is in a non vibrative state and a corresponding logic 0 (OFF) status achieved.
- the level of input voltage created (e.g. via the vibratible medium) is further responsible for the control and level of modulation of the signal, and, therefore, of such sound characteristics including volume.
- a sensor means may detect the vibrative state of a vibratible medium, and, for example, a default value may be supplied when the sensor finds no vibrative state.
- the level of input voltage created (e.g. via a condition of sensor means) is responsible for the level of a corresponding modulation such that sound characteristics, including volume, may be added to any one or more musical tones of said sequence (s) or added to any one or more chords thereof.
- the invention including said apparatus thereof further comprises: one or more vocal means such as a vocoder used for triggering actuation events which vocal means is optionally co-operable with one or more electronic means such as computerized means when actuating said musical tones of said sequence (s) or any one or more chords thereof; and or one or more means under rhythmic control by user to act upon any said musical tone or tones of said sequence or of said sequences stored on a or each machine readable source, such that a or each said musical tone stored thereon is both fully and precisely controllable in turn and at a timing determined by user, such as according to said First method and said First process of actuation, any such arrangement to include one or more recording and or playback means co-operable with a or each said machine readable source such that a or each said musical tone stored thereon is controllable in turn and at a or each timing determined by user.
- vocal means such as a vocoder used for triggering actuation events which vocal means is optionally co-operable with one or more electronic means such
- the invention includes said apparatus thereof comprising any number and or combination of both or either of said First actuator means and or concurrent means of actuation for actuating a or each said musical tone and or for similarly actuating a or each said chord of said sequence or of said sequences, which number and or combination may be employed by the user for use with the said music synthesizing system.
- the principal role of any said First actuator is to provide an input signal for an output actuation of any said musical tone such that data indicative of a or each said musical tone may be read and reproduced audibly, according to the said First method and also a said First process of actuation as described herein.
- the corresponding actuator (First) may itself provide the mechanism for actuation (e.g. as might be in the case of one or more piano-like keys, or, alternatively, instigate a signal which sets some other actuation device (e.g. switch) to an ON (logic 1) or OFF (logic 0) state, such as in the case of the breath controlled means as described in Fig. 11.
- most First actuators may also control (via variable input voltage) the level of the output voltage of an output actuation such that certain sound characteristics, including volume, may be added and or controlled accordingly.
- Actuator types employed within embodiments of the present invention instigate a signal process which corresponds to the example shown in Fig. 10a, wherein, according to an embodiment, the actuator mechanism 100 triggers a digital (or initially analogue) input signal 101 which proceeds along corresponding conductor.
- the input signal is next processed via a debounce facility (not shown) , then enters, for example, an integrated circuit 102 of the system memory and or control 12 at the process stage.
- the outputted digital control signal along 103 next enters, for example, a digital-to-analogue process 104.
- the resulting outputted analogue control signal along 105 is sound processed via 106 and reproduced as an audible note at 107.
- Figs. 10b, 10c and lOd illustrate, diagrammatically, the three operative states of the present mechanism, wherein Fig.
- FIG. 10b shows a first logic 1 (ON) state of the actuator mechanism with a pole 1000 when, for example, a piano-like key is depressed in the direction of 146 such that the present actuator mechanism is adapted to touch the conductor at 1010 via the contact 1007 when the piano-like key is depressed.
- Fig. 10b further shows the position of an insulator 1030 which, when engaged, is inserted in the position shown in the drawing when, for example, its corresponding operating pedal (not shown) is depressed. Also, when the same is raised, for example, the insulator 1030 is withdrawn. Further, when the insulator 1030 is engaged (e.g.
- Fig. 10c shows a logic 0 (OFF) state of the mechanism with pole 1000 which is further adapted such that when, for example, downward pressure is being released from the piano-like key, which key rises in the direction 145, the said actuator mechanism ceases to connect with either of 1010 or 1020 via its contacts 1007 and 1009.
- Fig. 10c shows a logic 0 (OFF) state of the mechanism with pole 1000 which is further adapted such that when, for example, downward pressure is being released from the piano-like key, which key rises in the direction 145, the said actuator mechanism ceases to connect with either of 1010 or 1020 via its contacts 1007 and 1009.
- lOd shows a second logic 1 (ON) state of the said actuator mechanism with pole 1000, when, for example, the piano-like key is released altogether such that the said actuator mechanism connects with the conductor at 1020 via contact 1009.
- Other types of operation (such as those which incorporate a successive though subtle or slight lowering and then subsequent return of the piano-like key) of the present said actuator mechanism are also possible.
- the operations as shown in Figs. 10b through till lOd may further be achieved by using other more conventional switches similarly, such as a standard SPST with a single contact .
- 11 further comprises a microphonic means (with grille) located within the mouthpiece, the said microphonic means being of the type with diaphragm and detector, wherein the detector also comprises a small coil of wire suspended inside a magnet, and, thus, a magnetic field.
- a BREATH IN event into mouthpiece against its grille or against the grille of a microphone positioned within the mouthpiece is created, resulting in an input voltage level which is detected by a voltage reading means and or detection means at 112 in order to establish a detection value of an input signal and or corresponding input voltage.
- the actuator mechanism e.g. switch
- the system memory and or control 12 performs an actuation, for example, via First method and First process of actuation upon music data indicative of said musical tone or sai ⁇ musical tones stored in the data memory (RAM) 5 or stored in some other digital memory. Further, if logic 1, the data count is incremented (not shown).
- the input voltage (inV) of a corresponding input signal sets a corresponding output voltage (outV) at 113 which is variable according to the level of the input voltage of a corresponding input signal, wherein, for example, a high level input voltage of corresponding input signal equals a corresponding high level output signal and commensurately high corresponding output voltage, and, thus, a greater amplitude, or vice versa in response to a lower level BREATH IN event at 111. Also, at 113, if the output voltage level is high (great) then volume (amplitude) level will also be high.
- the input voltage level (detection value) goes from zero volts to a high level in a short time scale, or vice versa, then a velocity condition may also be achieved, and, therefore, a corresponding sound characteristic produced at the audible output stage. If the voltage level fails to produce a detection (of volts) value of a corresponding input signal at any stage, a default value is found and the routine carries through till 114, wherein a gate condition may quickly be executed. Also, at 114, when the input voltage level of corresponding input signal falls to zero (or lower) the actuation mechanism (e.g. switch) is set to logic zero (OFF) and the routine ended at 115. A new actuation event is commenced when the routine of Fig. 11 is resumed after 110.
- the actuation mechanism e.g. switch
- the microphonic (or similar) means located within the mouthpiece of the present breath controlled means is positioned in close proximity to the user's lips (though, recommendably, no contact is made between the same and the mic at any stage) in order to facilitate the voltage detection process.
- the routine as shown in Fig. 11 is also applicable to a Second process of actuation (later explained with reference to drawing) wherein, instead of actuating said musical tones according to said First method and a said First process of actuation, the present apparatus could, alternatively, be used to control the signal process of a Second method and or a Second process of actuation, later explained in detail, hereinafter.
- Fig. 11 is the preferred example of a breath controlled means for use with the invention
- three other examples of actuator types have been developed by the inventor for use with embodiments, according to the present invention, wherein an electromechanical feature comprising a moveable bearing (e.g. electronic conductor) is guided backwards or forwards past the fixed position of one or more electronic or electromagnetic points of an open circuit in order to further provide either a logic 1 (ON) or logic 0 (OFF) switch status.
- a moveable bearing e.g. electronic conductor
- FIG. 12a shows a moveable bearing of a breath controlled means described hereinbefore, wherein the walls 120 and 121 of a hollow tube (shown in section) provide an airway for the metal (or metal plated) ball (being an electronic conductor) bearing 126 to move through and backwards and forwards between wedges 124 and 125 (also shown in section) which wedges may be formed from a shock absorbing material such as rubber.
- the ball bearing 126 is propelled backwards or forwards via breath control in either of direction 127 or 128 respectively, when either of an air blowing (129) or air drawing (suction) 1290 action is performed by user, via a mouthpiece (not shown) .
- the ball bearing 126 As the ball bearing 126 is propelled backwards or forwards in an alternating fashion according to the directions 127 or 128, it is toggled between two vertical pairs of electronic or electro-magnetic points (or about just one pair or about just one electronic or electromagnetic point) in the circuit which are fixed at positions 122 and 1220 and also at positions 123 and 1230. Whenever the ball bearing 126 is propelled (via breath control) in the direction 127 and against wedge 124 to be at a first home position 1200, the moveable bearing 126 completes the circuit between 122 and 1220, and therefore the invention's said system command (not shown) instructed to execute an actuation event, according to a said First method and also according to a said First process of actuation.
- the present breath controlled apparatus sets a logic 1 (ON) condition. Also, when the ball bearing 126 is away from either of a first or second home position 1200 or 1210, the present breath controlled apparatus sets a logic 0 (OFF) condition. Further, as long as the ball bearing 126 is held in contact between the electronic or electro-magnetic points of either home position and via breath control, any actuated musical tone (or chord of said musical tones) of a said sequence may be sustained for that duration. 1 (P
- control of volume may be provided, for example, via the fingered operation of two push buttons (not shown) or of similar means upon 120 and or 121; the first push button, for example, used to increase and or decrease volume and or level of some other sound characteristic, the second employed, perhaps, to switch volume OFF or ON, as required by the user.
- the propulsion of the ball bearing 126 may be performed irrespective of the normal breathing cycle, since the technique employed (within the present example) is more akin to the breath controlled processes of drawing or draining out (via blowing) for example, liquid through a drinking straw.
- a second example of a moveable bearing (electronic conductor) will be further explained, firstly, with reference to Fig. 12c, wherein the moveable bearing 126 is represented the form of a ring plate with central grille section 1260 provided such that a measure of air from the supply 129 as shown in Fig. 12b, is permitted to pass through in order to counter the less controllable effects of an air block.
- Fig. 12c also shows the positions (broken lines) of pin 1201 (not shown in Fig. 12b) and p 1202 (not shown in Fig. 12b) fixed to 120 and also the positions of pm 1211 (not shown m Fig.
- the compressible means 1261 (which might be constructed from a soft sponge-like material or similar with like properties being able to contract and let through a measure of air such as from 129) contracts in the direction of 128 and against wedges 124 and 125 as the moveable bearing 126 is forced back (via contraction of compressible means 1261) to be aligned as m a home position with the electronic or electro-magnetic points (or just one pair or just one electronic or electromagnetic point) fixed at positions 123 and 1230, such that the circuit is made and, therefore, the invention's said system command (not shown) instructed to execute an actuation event, according to a said First method and also a said First process of actuation.
- the circuit is retained in the logic 1 (ON) state. Also, when air pressure from 129 is reduced, the compressible means 1261 displaces the moveable bearing 126 from its home position and according to the direction 127 in order to break the circuit produced via the alignment of 123 and 1230 (or via other concurrent arrangement) thereby setting a logic 0 (OFF) condition.
- the moveable bearing (electronic or electro-magnetic conductor) 126 and also the compressible means 1261 are replaceable components. As in Fig.
- the present example of a breath controlled means may further be provided with two push buttons (not shown) or similar means located upon 120 and or 121, wherein, also according to the present example, the first push button or similar means may be employed, perhaps, to increase or decrease volume and or the level and or modulation of some other sound characteristic (s) , the second push button employed, perhaps, to switch volume OFF or ON, as required by user.
- the first push button or similar means may be employed, perhaps, to increase or decrease volume and or the level and or modulation of some other sound characteristic (s)
- the second push button employed, perhaps, to switch volume OFF or ON, as required by user.
- FIG. 13 A further example of the moveable bearing (electronic or electro-magnetic conductor) principle applicable to the invention and for use with embodiments is shown in Fig. 13, wherein the moveable bearing 126 is manually slid backwards or forwards in the direction of either 127 or 128 via, for example, an attached implement (not shown) which is also an insulated means, past, for example, a vertical alignment of electronic or electromagnetic points (or past one pair or past just one electronic or electromagnetic point) fixed at the positions 123 and 1230 to be at a home position and in order to complete a circuit so as to thereby achieve a logic 1 (ON) condition of an actuation event, or, alternatively, achieve a logic 0 (OFF) condition in order to end an actuation event, wherein the circuit is broken.
- an attached implement not shown
- an insulated means past, for example, a vertical alignment of electronic or electromagnetic points (or past one pair or past just one electronic or electromagnetic point) fixed at the positions 123 and 1230 to be at a home position
- the moveable bearing 126 produces the same outcomes as in Figs. 12a and 12b.
- the present example is supplemented by the provision of two push buttons (not shown) or similar means located upon 120 and or 121; the first push button may be used to increase volume level or modulate some other sound characteristic (s) and the second push button (or similar means) used, for example, to switch ON or OFF a note sustain event at the same time an output actuation of a musical tone is triggered in response to a closed circuit condition when moveable bearing 126 reaches home position.
- all actuators for use with the invention provide input signals and, therefore, also corresponding input voltages which provide, in turn, a logic 1 (ON status if voltage present) or a logic 0 (OFF status and or default value assigned if no detection of voltage or no detection value, or voltage level below that required for the setting of ON) state, either directly, or via a voltage reading means or some other detector means, wherein a detection value (e.g. of voltage) is employed as part of the signal process.
- a detection value e.g. of voltage
- the variable control level of sound characteristics such as volume, for example, are directly relative to the variable input level of voltage in the circuit.
- an outputted detection value may provide the means required to modulate the level of one or more sound characteristics during an output actuation process of a said musical tone.
- a Second actuator i.e. an actuator or similar means which performs an actuation according to a said Second method and or a said Second process of actuation
- the present invention also includes additional means of the said music synthesizing system comprising: said additional means co-operable with characteristics including assignable characteristics, which assignable characteristics are further co-operable with a process for use with said music synthesizing system, wherein a or each said musical tone or said chord of said sequence is controlled in turn and at a or each timing determined by user or users via actuators equipped with both separate and independent control of a or each said musical tone or said chord of same said sequence when each actuator such as each said actuator means of corresponding same said sequence performs both separate and independent actuation steps upon same said sequence and or audibly upon same said musical tones of same said sequence, including when an assignable characteristic such as control instigated via each said actuator means thereof co-operates with different control events or with concurrent data of any said musical tone or of any said chord of corresponding said same sequence; and or said additional means further comprising first select means of the invention used for performing the function of assigning both or either of a corresponding said actuator means and or corresponding said means of actuation to means including:
- the invention includes additional means such as second select means provided for performing the function of assigning any corresponding said actuator means or any corresponding said means of actuation to one or more corresponding voice programs or vice versa while each said voice program such as preset voice program is designated by user for use m any concurrent sound process of a corresponding actuation step.
- the additional means of the invention further comprises one or more local control means which local control means provides a function of said music synthesizing system, wherein said local control or control is assignable to both or either of corresponding said actuator means and or to corresponding said means of actuation via means such as programmable means while ON-OFF means located on means such as corresponding said actuator means or located elsewhere enables or disables said local control of the invention, though when enabled, said local control thereby permits corresponding said actuator means or corresponding said means of actuation to take over control of one or more said musical tones of a or each said sequence including one or more said chords thereof such that corresponding said actuator means or corresponding said means of actuation gains local control or control of a or each same said sequence either initially, including after a power on step, or corresponding said actuator means or corresponding said means of actuation takes over control of same one or more said sequences after a preceding actuation step via any other active or inactive said actuator means which other active or inactive said actuator means may also be equipped with said local control or
- a or each said actuator means and or a or each said means of actuation is equipped with said additional means such as local control means or control means further adapted to act upon characteristics such as data including various types of events during actuation of a or each unit (i.e.
- programmable parameters of the invention which programmable parameters comprise: any corresponding ADSR parameters; and or any corresponding EG parameters; and or any concurrent programmable parameters and or settings, while said events and or said programmable parameters and or programmable settings are further co- operable with the following, including: characteristics such as data related to signal processing, sound processing and or sound reproduction of the invention; and or said local control or control of both or either of said musical tones and or said chords of both or either of said sequence or of said sequences, such that said events and or said programmable parameters and or said programmable settings are further co-operable with the following, which include: one or more types of said sound FX designated by user; and or one or more said sound FX groups designated by user; and or any one or more said sound processes designated by user; and or any one or more said signal processes designated by user which may include any one or more said digital signal processes designated by user; and or any one or more said sound
- both or either of corresponding said actuation means and or corresponding said means of actuation being co-operable with means such as said first select means and or said second select means and or said programmable means may further co-operate with control characteristics as required or vice versa while said control characteristics include: said control characteristics such as data designated by user and or included in either of a corresponding said actuation step or a part thereof when a or each corresponding said sound effect is designated by user, and or when a or each corresponding process such as corresponding said sound process and or corresponding said signal process and or corresponding said digital signal process and or concurrent process is designated by user, and or when a or each characteristic such as corresponding said tone colour or timbre, envelope and or waveform is designated by user, and or when a or each corresponding said sound FX group is designated by user, and or when a or each corresponding said voice program is designated by user.
- said control characteristics such as data designated by user and or included in either of a corresponding said actuation step or a part thereof when a
- the invention also includes additional means, wherein one or more said actuator means and or one or more said means of actuation is assigned and or enabled with said local control or control when said local control or control is co-operable with the following for use with the invention, including: any one or more said sound FX designated by user; and or any one or more said sound FX groups designated by user; and or any one or more said digital process designated by user including any one or more said digital signal processes designated by user; and or any one or more said voice programs designated by user; and or any one or more said tone colours or timbres, envelopes and or waveforms and or any similar sound characteristics designated by user for use in any concurrent actuation of said sequence or of said sequences when means such as said programmable means has been programmed by user to predetermine any co-operation between said local control or control and or corresponding control characteristics, including any said control characteristics .
- sound processing means comprising means for creating and or generating said tone colours or timbres, envelopes and or waveforms and or concurrent sound characteristics
- said signal processing means and or said sound processing means including: means such as said digital signal processing means; and or any other contrasting and or user-modiflable means of sound and or signal processing; and or any otner concurrent sound and or signal processing arrangement of the invention including any concurrent digital signal processing arrangement thereof; and or a combination of both of a sound processing arrangement and also a signal processing arrangement assigned via means such as said programmable and or operable means of the invention.
- a process of sound reproduction provided for use with said music synthesizing system according to embodiments, wherein, conceptually, both and or either of the input signal and or corresponding output signal (separately or together referred to hereinafter as the original signal) of an output actuation and or the control of sai ⁇ original signal are rendered as separate sub processes to be performed independently via, for example, a Second method of actuation which often employs two different actuators (any such actuator of said musical tones being a Second actuator to correspond with either a Second method and or a Second Process of actuation) while each actuator performs a specific sub process.
- a Second method of actuation which often employs two different actuators (any such actuator of said musical tones being a Second actuator to correspond with either a Second method and or a Second Process of actuation) while each actuator performs a specific sub process.
- the original signal (conceptually "A") of an output actuation and the control (conceptually "B") of a said original signal are both performed via a said First method of actuation, and via the employment of one and the same sai ⁇ First actuator means or similar means of actuation.
- the sai ⁇ First process of a First actuator may be represented as AB 160.
- the original signal and control of a Second process are considered as separate sub processes, each performed independently, for example, by different actuators (called Second actuators)
- the relationship between the two sub processes may be represented, conceptually, as "a" 162 and "b" 164.
- any said original signal of a first sub process type such as al 166 or a2 167 (as explained herein later) may remain unprocessed until an intervention from a different source such as a second sub process type bl 168 or b2 169 (as explained herein later) is acted upon the said original signal of a first sub process "a" 162.
- a subdivision of said First process of actuation AB 160 as shown in Fig. 16a amounts to the creation of said Second process of actuation which comprises: a first sub process type for use with said music synthesizing system as shown Fig. 16a and Fig. 16b, according to said Second process of actuation, and Deing conceptually al 166 which comprises a said original signal (dry) to be controlled by same actuator (initial controller) or same actuation means (e.g. initial controller/s) so as to perform mainly SIGNAL ON, SUSTAIN or SIGNAL OFF events of corresponding output actuations.
- same actuator initial controller
- same actuation means e.g. initial controller/s
- the original signal of al 166 may also be patched through to external FX apparatus and or devices and processed accordingly. Further, the said original signal of al 166 may be set to either of an audible or inaudible state via the interruption of another said Second process such as a second sub process "b" 164 performed via a secondary controller which secondary controller curtails, facilitates or articulates (acts upon e.g. modulates) the said original signal al 166; another first sub process of actuation for use with said music synthesizing system as shown in Fig. 16a and also Fig.
- a second sub process "b" 164 performed via a secondary controller which secondary controller curtails, facilitates or articulates (acts upon e.g. modulates) the said original signal al 166; another first sub process of actuation for use with said music synthesizing system as shown in Fig. 16a and also Fig.
- a2 167 which comprises a processed (e.g. via sound FX) said original signal a2 167 having two states, the first being inaudible due to an intervention via another sai ⁇ second sub process such as a second sub process "b" 164 performed via a said secondary controller, wherein the said original signal a2 167 is curtailed via the logic 0 (OFF) setting of a device such as a CMOS switch (4066; or other concurrent means of a said second sub process "b” 164, such as, conceptually, bl 168 as shown in the drawings 16a and 16b, which is included as part of the circuit, though in a position prior to the audible sound reproduction stage, while bl 168 triggers no sound effect ( s ) /algorithm/s (user- modified or other) to further act upon a2 167 though bl 168 may be used to modulate the said original signal a2 167 and
- the second sub process type b2 169 may be curtailed and so become inaudible whenever the source of the said original signal is set to logic 0 via a first sub process "a" 162, including via a first sub process type al 166 or via a first sub process type a2 167.
- both or either of the sub process types bl 168 and or b2 169 may be acted upon AB 160 of said First process of actuation, in any way or in any ways concurrent with any hereinbefore described.
- a Second actuator means performs said second sub process type bl 168 or said second sub process type b2 169 upon the said original signal of an output actuation of corresponding said First actuator means so as to further articulate and control the sounded output actuation of the said First actuator means.
- Additional means of the invention is further co- operable with the following including: an original signal which is an inputted signal of a corresponding actuator means or of a corresponding means of actuation, or said original signal comprising both or either of an inputted signal and or a corresponding outputted signal of said actuator means or of corresponding said means of actuation which original signal may be set in either of a SIGNAL ON state or SIGNAL OFF state by corresponding said means of actuation while said original signal is in concept an initial signal which may be acted upon by other signals or impulses from any other concurrent means included in the invention; a process of actuation for use with the invention, wherein there is created a subdivision of the said First process of actuation in order to establish, therefore, the creation of a Second process of actuation, especially for use by two or more performers, which Second process further comprises: a first sub process of a said Second process of actuation for use with said music synthesizing system, which first sub process being a first sub process of actuation comprises: a signal
- additional means is further co-operable with the following comprising: a second sub process of actuation being a second sub process of the said Second process of actuation which second sub process is for use with the invention and which second sub process is performed via either of a corresponding said actuator means or via corresponding said means of actuation operable by the user so as to provide said intervention and tnereby act upon a first sub process of said Second process of actuation and similarly act upon any said original signal of corresponding said first sub process of said Second process of actuation when said intervention is initiated via a or each corresponding signal process of said second sub process, such that characteristics mainly of time initially under control via a said first sub process of a said Second process of actuation may be further controlled via a separate second sub process type of signal process of said Second process of actuation according to such sound characteristics as dynamics including silence, and or timbre and or frequency and or time; and a or each Second method of actuation for use with the invention, which Second method comprises both of a said first sub process of actu
- additional means of the invention further co-operable with the following which include: said first sub process, which first sub process also corresponds with both of a said Second method and said Second process of actuation performed via corresponding said Second actuator means, the corresponding said Second actuator means being an initial control means of the invention to thereby instigate a said original signal of a corresponding output actuation at a timing determined by user such that a or each corresponding actuated said musical tone or said chord of one or more said sequences may be further controlled and or articulated via one or more other actuators, audibly or otherwise, while same said original signal is controlled according to characteristics of mainly time via the said initial control means and or controlled via one or more functions of the said initial control means such as by said hold function means of the invention; said second sub process of corresponding said Second process of actuation performed by a said Second actuator means of corresponding sa ⁇ d Second process being a secondary control means of the invention to thereby further articulate audibly, or otherwise, any said musical tone of said sequence and or any said chords thereof
- Second methods are available and for use with said music synthesizing system which Second methods include: al performed upon bl; bl performed upon al; a2 performed upon bl; bl performed upon a2; bl performed upon AB; and b2 performed upon -AB.
- the Second methods hereinbefore described, according to both of the said first sub process and the said second sub process of actuation are herein provided in order to facilitate another object of the present invention, wherein two or more users (performers) may play (control) independently, a or each sound characteristic of any output actuation and also the corresponding signal of a or each said musical tone at a timing or at timings determined by each user or player (when, more usually, such sound characteristics performed on one musical instrument are controlled simultaneously by just one player or user) while, for example, each said sub process is the performance responsibility of a single player or user when a or each said sub process is carried out via the employment of corresponding said Second actuator (s) and or said Second actuator means.
- 17a shows, in concept, a typical visual display of a local control arrangement for a corresponding actuator means of said musical tones.
- Numerals 170 - 178 show, by way of example, the local control status (ON/OFF) of five parameters (1700 - 1780) assignable to such an actuator means, wherein there comprises:
- the selection L/ON 170 (as opposed to L/OFF) which enables the invention' s DSP as shown in the display window 1700 where, for example, MIDI channel six has been selected as the MIDI receiving channel for corresponding algorithm
- selection L/ON 172 (as opposed to L/OFF) which enables a specific preset voice or preset multi voice as shown in the display window 1720, where, for example, MIDI channel 2 has been selected as the MIDI receiving channel for a corresponding program
- selection L/ON 174 (as opposed to L/ON) which disables the invention' s bank of timbre types by way of a zero selection (MIDI receive channel) as shown
- the L/ON 178 setting of the present actuator further equips the same with local control over any other actuator (or any other actuator's parameters assigned to corresponding local control) when the present actuator is in operation.
- Fig. 17b depicts, also conceptually, three pianolike keys (K171, K173, K175) set in an OR logic function with a common conductor 179 which carries any output signal of an output actuation resulting from operation of K171, K173 or K175.
- each key is assigned with a corresponding timbre type. If, for example, the overall preset voice setting is that of "vocoder”, then TT1 (Timbre Type 1) 171 might correspond to a vocal "oooh” sound, TT2 (Timbre Type 2) 173 might correspond to a vocal "eee” sound and TT3 (Timbre Type 3) 175 might correspond to an "ay " sound.
- each piano-like key controls, for example, a contrasting tone colour (timbre) of the overall "vocoder” preset, or of any other preset voice (s) selected by user.
- the invention further comprises various types of apparatus and or corresponding means, according to any said Second process or said Second method for use with embodiments of the invention, which types of apparatus and or corresponding means are employed, principally, to supply a said original signal for the instigation of an actuation event, or employed to supply an original signal (ON/OFF) which (directly or otherwise) queues a or each next musical tone in turn of a said sequence for actuation at a timing determined by user, or employed to enable and control or disable certain sound effects and or signal processes, and or employed to modulate the original signals of other actuators.
- the invention includes said additional means and also any number and or any combination of the following Second actuator means further co-operable with said Second process of actuation, when said Second process may be used to actuate said musical tones and or said chords of one or more said sequences via means further comprising any of a variety of corresponding said Second actuator means and or corresponding Second means of actuation to instigate and or further control a or each said musical tone or one or more said chords of a or each said sequence, or a part thereof, to thereby enable characteristics such as touch sensitivity and or vibrato and or aftertouch to be added selectively to both or either of any said musical tone and or said chord of a said sequence while characteristics are controlled as required by user; and, additionally, any preceding said Second actuator means or any other concurrent means employed to directly modulate a or each sound characteristic and or similarly process a or each said original signal or instigate a said original signal of a corresponding output actuation, while a or each said musical tone or said chord is controlled in turn and at a or each
- the invention including said additional means, is provided with any number and or any combination of the preceding said variety of corresponding Second means of actuation co-operable with said additional means which further includes: orchestral bowing means to be played by the user via method of manipulation more usually comprising mainly alternating up and down bow movements of a bowing means such as an electromagnetic bowing means to be applied across and upon a length such as an electromagnetic length so as to further control the actuation of a or each said musical tone and or a or each said chord of any said sequence in turn and at a or each timing determined by the user and according to said Second method and said Second process of actuation; or said orchestral bowing means may be employed for use within the invention as both or either of a said First means of actuation and or a said Second means of actuation; and or pressible means co-operable with one or more means of said orchestral bowing means, which pressible means is either designated to control a or each said musical tone of a or each said sequence or a part thereof at a timing or at timings
- actuation process of an orchestral bowing means is represented by the co-operation between two electromagnetic means.
- the first represented by an "x" axis 140 which comprises, for example, a linear member (electromagnetic length) with a fixed alignment of electromagnetic cells in close proximity, the alignment also corresponding to co-ordinate positions.
- the Second electromagnetic means, represented by the axis "y” 142 is a bowing implement (electromagnetic bowing means) to be manipulated somewhat like a violin bow "up” 145 and “down” 146 as shown in the drawing (Fig.
- the bowing implement (as represented by 142) and in contact with the linear member (electromagnetic length) as represented by 140.
- the bowing implement (as represented by 142) also comprises a fixed alignment of electromagnetic cells in close proximity, further corresponding to co-ordinate positions of "y" 142.
- the detection value (given in co-ordinates) is assigned, for example, a "positive” reading, or a reading that progresses, for example, toward the "positive".
- the overall positive detection value and also the overall negative detection value both provide two alternative conditions required for setting a logic 1 (ON) status for actuation according to, for example, a First method and also a First process of actuation.
- a logic 0 (OFF) status is achieved at any time the bowing implement 142 is perceived as stationary, especially for that fraction of a second in between bowing which is a bowing in-action when, for example, the direction of a bowing action 146 is about to change to that of 145, or vice versa, which bowing inaction is further subject to time settings and conditions so as to facilitate the control thereof.
- Fig. 14b represents an up bow event achieved via movement 145
- Fig. 14c represents a down bow event achieved via movement 146.
- a sustained note event may be achieved by moving the bowing implement 142 against 140 in the direction of either 145 or 146 for a protracted duration.
- a velocity effect may be achieved via rapid modulation wherein multiple detection values (e.g. in coordinates) are outputted in a short period of time.
- the overall volume of the present example may be controlled, for example, via operation of one or more push buttons or similar means. Further, one or more push buttons (or similar means) may also be used to control one or more other sound characteristics, especially those which correspond to sounds specifically associated with those produced on a violin or other similarly related instrument.
- Fig. 15 of the drawings illustrates, conceptually, a number of hypothetical playing positions of a bowing means (implement) 142 across and in contact with length "x" 140, the positions relative to numerals 1420, 1421, 1422, 1423 which may occur during operation.
- Such playing positions should not affect the switching conditions 145 and 146 since, generally the bowing movements upon and across length 140 will, to a lesser or greater extent, produce, for example, the positive or negative detection values needed to achieve an actuation event.
- bowing movements would produce a variety of co-ordinate readings, each concurring with (or resembling) a certain overall algorithm.
- each reading may correspond, characteristically, or at least in part thereof to one of the algorithms of the said orchestral bowing means which further corresponds to a certain sound characteristic. Also, when the bowing implement 142 is removed from contact with 140, a default value is outputted and a logic 0 (OFF) status set. Thus, it is further possible to play (actuate) notes using a col legno technique.
- the orchestral bowing means which comprises both of a length 140 (electromagnetic length) and also a bowing implement 142 (electromagnetic bowing means) is a co-ordinate detecting apparatus which outputs a coordinate flow of data (such as a scrolled list) including, or, alternatively, outputs a static (stationary) detection value (default), for example, between positive (+) and negative (-) values such as between direction changes 145 and 146 or vice versa, of the bowing implement 142 or when no contact between 140 and 142 occurs.
- a coordinate flow of data such as a scrolled list
- a static (stationary) detection value default
- the corresponding output signal is then sound processed at 180 by the invention's sound processing 180 and in accordance with, for example, a process instigated via a first push button 183 in order to add and or control a sound characteristic of an output actuation, also in accordance with a process instigated via a second push button 186 in order to add and or control a second sound characteristic of the output actuation, and, further, in accordance with a process instigated via pressible means 189 to add (and or control) a third sound characteristic to the effect of an output actuation of musical tones.
- the invention includes said additional means, wherein any number and or any combination of said means for actuating said musical tones and or said chords of one or more said sequences includes any of said variety and or includes any number of the preceding said Second actuator means or concurrent means operable by the user which may be assigned via the relevant adaptation of means such as said programmable and or operable means 3 also corresponding to a or each said program and or a or each said routine thereof as designated from the said attendant operating system via said programmable and or operable means 3 such that any of the said number and or any of the said combination of said actuator means and or any of the said means of actuation may be assigned as required to thereby control a or each said musical tone and or a or each said chord in turn and at a or each timing determined by user, and according to both of a said Second method and said Second process of actuation, or according to any other said method and or said process thereof.
- a sub system which further comprises a hand held section or peripheral unit of one or more said First actuator means and or one or more said Second actuator means to thereby control a or each said musical tone or a or each said chord of one or more said sequences in turn and at a or each timing determined by user, also according to any said method or any said methods of actuation and or according to any said process or any said processes of actuation; and a main system provided with means including sound source means and also means mainly for the generation and or storage and or reproduction of music data indicative of one or more said sequences to be played according to one or more said methods of actuation and or according to one or more said processes of actuation; and or sub system comprising an overlay means and or a console means and or a unit means provided for interfacing with a computer or computer system or computerised means, while the computer or computer or computer system or computerised means provides corresponding said main system to be adapted
- Fig. 19 of the drawings illustrates, conceptually, an arrangement and functional relationship between a main system of the invention and also a sub system of the invention, according to an embodiment, wherein the sub system 190 represents a hand held peripheral which is joined via a connector lead 199 to a communication I/F 9 of a main system 191, the main system 191, in the present example, being representative of a computerised unit mainly for the creation and storage of data including the same indicative of the said musical tones of one or more certain said sequences. Therefore, with reference to Fig. 19, the sub system 190, which, in the present example of the embodiment is specifically designed to be instrument-like (e.g.
- the sub system 190 further comprises panel controls 3a of programmable and or operable means 3 for manual control of actuation, and also a sound apparatus of sound system 7, wherein, for example, an electronic speaker apparatus may appear at one end of a sub system 190 apparatus giving the visual impression, for example, of a wind instrument's bell.
- the sub system 190 may also be provided with a digital-to-analogue conversion means 6 on board 190, or the same digital-to-analogue conversion means 6 may be located within the main system 191 and connected to the sound system 7 of sub system 190 via connector means (not shown) .
- the main system 191 generally comprises those features and functions which are more usually responsible or useful, for example, when creating data indicative of said musical tones of one or more said sequences.
- the main system 191 comprises display section 2, programmable and or operable means 3b, system memory and or control 12 a communication control means 11 for use with external sources #1 8 (not shown) and or #2 10 (not shown), data memory (RAM) 5, a program memory (ROM) 4 and, according to the present example, a communication I/F 9 which is for co-operation of control between both of a sub system 190 and a main system 191 via cord 199.
- the sub system 190 and or main system 191 may comprise different combinations of the units as shown in Fig. 19 and or Fig. la, depending on the exact role and or function of the sub system 190 and or the main system 191, as required by user.
- the invention also includes said programmable and or operable means 3 co-operable with means such as a or each device in the form of a variable pedal means thereof comprising adjustable actuators and or switch means and or concurrent means all in the form of a unit further comprising a or each pivot bar and a or each heel pedal means and or a or each heel-operated switch means and a or each toe pedal means and or a or each toe-operated switch means .
- any said variable (adjustable) pedal means of the said music synthesizing system comprises an arrangement such as a number of raised input terminals 201, 203, 205 and 209 (or similar means) being pedals (or switches) operable by the toe or heel section of the user' s foot when the same is positioned about its central base (i.e. between the user's toe section and heel) upon the raised pivot bar 207.
- the foot which acts like a lever) position may be adjusted freely upon the pivot bar 207 as required such that the toe section of the user's foot may operate any toe pedal 201, 203, 205.
- the user's toe section lifted as the heel section is lowered (with contact at the central base of the foot maintained at 207) to operate the heel pedal 209.
- Any of the toe pedals 201, 203, 205 may be rendered in a logic 1 or logic 0 state, as well as the heel pedal 209.
- the principal function of the present apparatus is to instigate the edit control process and or the edit repeater process as described hereinbefore (with reference to Fig. 4).
- the present apparatus may also be employed as a First or Second actuator for use with the invention.
- the units 201 through till 209 are also adjustable so as to fit a range of foot sizes and types .
- a preferred embodiment of the invention which comprises most of the features herein described in one stand-alone and or portable unit further comprising a manual (shown) which manual (or ideally several) comprises user-definable piano-like keys, some of which are First actuators (e.g. three on either side of the manual) and others also comprising both or either of Second actuators (in the form of piano-like keys) and select means (also in the form of piano-like keys), the up-right black keys, in this drawing, representing function keys such as for programming.
- the screen (shown) may, by way of concept, act as a monitor, via which the projected image of, for example, a music manuscript, may be viewed, including when such pages are turned in real time by another user.
- the manuscripts may be digital images from a data-base.
- the standardiser means (not shown) is located within, while edit control and edit repeater functions would be available on board (e.g. via press buttons) or instigated via add-on devices (not shown) .
- the violin-like instrument controller (orchestral bowing means) might be available as a sub system (described in Fig. 19) or as a fully dedicated instrument that is interfaced with a sequential unit for storing said sequences.
- Fig. 23 of the drawings depicts a vibratible means (instrument controller) which is rather bass guitarlike, though comprising a single (or more) substantial string (vibratible medium) for triggering output actuations.
- Fig. 24 of the drawings is a percussive means (instrument controller) comprising drum pads (shown) including one (or more) bass pad (shown) for use in the triggering of output actuations.
- the beaters (sticks) strike the upper pads in a number of ways, including from the bowed (convex) centre.
- Fig. 25 of the drawings depicts a mechanical means (instrument controller) which corresponds to the mechanism described in Fig. 13.
- Fig. 26 shows a frame further comprising grip keys (shown) for dual manual operation.
- the left grip keys can be assigned, for example, to play a right hand part, and the right grip keys assigned to play a left hand part e.g. of keyboard music.
- the manual of the preferred embodiment (Fig. 21) may be programmed similarly, as is the case with similar instrument controllers.
- Figs. 27 and 28 of the drawings show breath control means (instrument controllers).
- the keys shown on the instrument controller in Fig. 28, are for example, First and or Second actuators.
- Figs. 29 to 31 represent foot-operated instrument controllers of the invention, which may perform as First or second actuatcrs.
- Fig. 32 of the drawings represents a piston means (instrument controller) as described herein.
- any of the instrument controllers may be interfaced to a sequential unit (for storing said sequences) such as via a junction unit when a number of the instrument controllers (actuators) are in the circuit and playing from a same song location.
- means including said programmable and or operable means thereof co-operable with said attendant operating system, wherein said programmable and or operable means 3 is provided for use in the control and designation of a or each said program and or a or each said routine thereof such as for adapting the said overall command and management of said system memory and or said system control 12 including when a or each said program and or a or each said routine thereof facilitates the user to thereby perform and execute functions and or operations and or processings in relation to music, such that the said music synthesizing system is both or either programmable and or operable by one or more users.
- the invention includes both or either of said programmable means and or corresponding means such as said operable means for instigating one or more means designated by user to thereby perform both or either of functions and or operations according to any one or more said methods and or according to any one or more said processes, when said one or more means designated by user enable the invention to thereby perform the said functions and or operations especially and or including: engage or disengage any corresponding apparatus and or device or devices for use with the invention including any one or more said First actuator means and or any one or more said Second actuator means; and or engage or disengage any operations allied to said methods or said processes of actuation or one or more said functions for use with the invention; and or combine any number, combination and or variety of said actuator means of the invention and or any concurrent means of actuation thereof; and or assign any number and or combination and or any of both or either of said variety of means and or corresponding said Second actuator means of the invention to play the said music data indicative of a or each said chord and or a or each said musical tone of any concurrent number and or any concurrent combination
- the invention including both or either of system memory and or system control 10 thereof, is provided with one or more means designated by user to enable the invention to thereby perform said functions and or operations, also especially and including: select either a or each circuit of an OR logic function of the invention for use with any two or more said actuator means or, alternatively, select a circuit wherein the number of said actuators and or the number of said actuator means either concurs numerically with the designated number of said sequences of said music data for actuation, or designated said sequences thereof are any number and or any combination as required by user irrespective of number of designated said actuator means; and or control the reading, retrieving, sound processing and creation of said music data indicative of said musical tones of a or each said sequence or said chords thereof; and or control the reading, processing and creation of one or more said predetermined sequences of data progressions being indicative of a or each said predetermined sequence of said settings and or said parameters or concurrent data such as sequential data in the form of control data for processing and or triggering a or each sound characteristic including a or each sound effect which
- the invention including both or either of system memory and or system control 12 thereof, is provided with one or more means designated by user to enable the invention to thereby perform said functions and or operations, also especially and including: designate and or write and or edit and or generate data indicative of said musical tones of a or each said sequence and or said chords thereof so as to create a or each said sequence of said musical tones and or any said chords thereof for actuation by the invention; and or assign the said music data indicative of a or each said sequence of said musical tones and or said chords to a store; and or determine the cooperation between any apparatus and or between any device or devices of the invention, and or determine the cooperation between both or either of said First actuator means and or any said Second actuator means; and or determine and or convert the status and or performance of any said actuator means and or concurrent means of actuation of the invention so as to become a said First actuator means or said initial control means or said secondary control means, as required.
- the invention including both or either of system memory and or system control 10 thereof, is provided with one or more means designated by user to enable the invention to thereby perform said functions and or operations, also especially and including: adapt sound reproduction means and or performance of any apparatus and or any one or more devices; and or adapt the function thereof, and or any method or operation thereof; and or set any apparatus, device or operation of the invention to an ON or OFF state thereof; and or control START and or PLAY and or PAUSE and or STOP operations thereof; and or select both or either of said line input means and or said microphone input means such as for use in said standardising process thereof.
- the invention including both or either of system memory and or system control 10 thereof, is provided with one or more means designated by user to enable the invention to thereby perform said functions and or operations, also especially and including: determine the states of control of any apparatus, devices and or of any associated operations of the invention; and or control ENTER and STORE functions of the invention; and or determine the sound of a or each said musical tone of any said sequence or of any said chords thereof according to dynamics, timbre, duration and or frequency under control by user and or according to any one or more said sound and or said signal processes including any concurrent said digital signal process.
- the invention including both or either of system memory and or system control 10 thereof, is provided with one or more means designated by user to enable the invention to thereby perform said functions and or operations, also especially and including: select or deselect and or enable or disable powering of any apparatus and or device or devices of the invention; and or adapt the invention to receive said sound waves and or said audio signals and or data of inputted musical tones and or data including audio data of inputted chords from said internal and or external sound source means for the creation and subsequent actuation of a or each said musical tone or said chord of one or more said sequences of the invention; and or select and control the said random generating means of the invention.
- the invention including both or either of system memory and or system control 10 thereof, also including both or either of said programmable means of the invention and or corresponding means such as said operable means for instigating means such that said actuator means thereof, and or concurrent means of or for actuating said sequences thereof may be adapted to thereby co-operate with means such as voice program means and also various other means such a s means especially comprising and or including said local control means and or said sound processing means and or said signal processing means and which various other means are for use in any concurrent combination thereof and or in any concurrent arrangement thereof and for use in actuation according to said First method and or said second method of actuation and or according to any other concurrent method of actuation and or according to said First process and or said Second process of actuation and or according to any other concurrent and or similar process of actuation.
- the invention is equipped with MIDI IN, MIDI OUT and an optional MIDI THRU, thus aligning itself with MIDI apparatus and devices, including computers, and therefore with a practice which is at present, industry standard.
- the invention provides a range of apparatus and devices including a variety of instrument controllers (actuators) for use with mainly sequential data, which data collating amounts in itself to a whole service industry of supply and demand, and further involves the reproduction of music scores and manuscripts of printed arrangements.
- instrument controllers actuators
- this invention provides features of said music synthesizing system including electronic apparatus and devices thereof substantially as herein described. Also, according to a preferred embodiment, as well as to other embodiments, the invention therefore amounts to a combination of features as described herein.
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Abstract
Description
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Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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AU35660/00A AU3566000A (en) | 1999-03-31 | 2000-03-28 | Features of a music synthesizing system including electronic apparatus and devices |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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GB9907326A GB2345374B (en) | 1999-03-31 | 1999-03-31 | Features of a music synthesizing system including electronic apparatus and devices |
GB9907326.4 | 1999-03-31 |
Publications (2)
Publication Number | Publication Date |
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WO2000058939A2 true WO2000058939A2 (en) | 2000-10-05 |
WO2000058939A3 WO2000058939A3 (en) | 2001-02-01 |
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PCT/GB2000/001179 WO2000058939A2 (en) | 1999-03-31 | 2000-03-28 | Features of a music synthesizing system including electronic apparatus and devices |
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AU (1) | AU3566000A (en) |
GB (1) | GB2345374B (en) |
WO (1) | WO2000058939A2 (en) |
Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4375177A (en) * | 1981-04-13 | 1983-03-01 | John Larson | Automatic electronic musical instrument |
US4881440A (en) * | 1987-06-26 | 1989-11-21 | Yamaha Corporation | Electronic musical instrument with editor |
US5495073A (en) * | 1992-05-18 | 1996-02-27 | Yamaha Corporation | Automatic performance device having a function of changing performance data during performance |
WO1996036034A1 (en) * | 1995-05-11 | 1996-11-14 | Virtual Music Entertainment, Inc. | A virtual music instrument with a novel input device |
GB2320125A (en) * | 1996-12-05 | 1998-06-10 | Ethymonics Ltd | Controlling the characteristics of an audio signal |
US5832431A (en) * | 1990-09-26 | 1998-11-03 | Severson; Frederick E. | Non-looped continuous sound by random sequencing of digital sound records |
Family Cites Families (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2661211B2 (en) * | 1988-03-03 | 1997-10-08 | セイコーエプソン株式会社 | Sound signal generator, sound signal generation method, and musical sound generator including the same |
JP2705395B2 (en) * | 1991-10-07 | 1998-01-28 | ヤマハ株式会社 | Electronic musical instrument |
-
1999
- 1999-03-31 GB GB9907326A patent/GB2345374B/en not_active Expired - Fee Related
-
2000
- 2000-03-28 AU AU35660/00A patent/AU3566000A/en not_active Abandoned
- 2000-03-28 WO PCT/GB2000/001179 patent/WO2000058939A2/en active Application Filing
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4375177A (en) * | 1981-04-13 | 1983-03-01 | John Larson | Automatic electronic musical instrument |
US4881440A (en) * | 1987-06-26 | 1989-11-21 | Yamaha Corporation | Electronic musical instrument with editor |
US5832431A (en) * | 1990-09-26 | 1998-11-03 | Severson; Frederick E. | Non-looped continuous sound by random sequencing of digital sound records |
US5495073A (en) * | 1992-05-18 | 1996-02-27 | Yamaha Corporation | Automatic performance device having a function of changing performance data during performance |
WO1996036034A1 (en) * | 1995-05-11 | 1996-11-14 | Virtual Music Entertainment, Inc. | A virtual music instrument with a novel input device |
GB2320125A (en) * | 1996-12-05 | 1998-06-10 | Ethymonics Ltd | Controlling the characteristics of an audio signal |
Also Published As
Publication number | Publication date |
---|---|
WO2000058939A3 (en) | 2001-02-01 |
GB2345374B (en) | 2000-11-08 |
AU3566000A (en) | 2000-10-16 |
GB9907326D0 (en) | 1999-05-26 |
GB2345374A (en) | 2000-07-05 |
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