|Publication number||US3919915 A|
|Publication date||Nov 18, 1975|
|Filing date||Mar 28, 1974|
|Priority date||Mar 28, 1974|
|Publication number||US 3919915 A, US 3919915A, US-A-3919915, US3919915 A, US3919915A|
|Inventors||Robert W Isbell|
|Original Assignee||Robert W Isbell|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (5), Referenced by (17), Classifications (6)|
|External Links: USPTO, USPTO Assignment, Espacenet|
United States Patent 1191 Isbell Nov. 18, 1975 1 1 ELECTRONIC MUSICAL CONDUCTOR 3,774,494 11/1973 Reid et al. 84/484 x  Inventor: Robert W. lsbell, 19001 Milford Circle Huntington Beach Calif Primary ExammerLawrence R. Franklin 92646 Attorney, Agent, or Firnz-Fraser and Bogucki  Filed: Mar. 28, 1974  ABSTRACT  Appl. No.: 455,711 An arrangement is provided for generating and recording signals of different frequency corresponding  U S Cl 84/484, 360/79 84/464 to the different beats in the meter of musical material  lrit. Cl n 27/32 simultaneously with the recording of the musical ma-  Field of Search 84/470, 477, 478, 484, 3!- gf z g f f 84/464; 274/46 R 46 D; 360/79 cor mg o err requency an are u 11ze o 1 um1- nate individual ones of a plurality of lamps 1n synchroh the beats of the musical material as the mu-  References Cited wlt slcal material is played back. The lllummated lamps UNITED STATES PATENTS are used by one or more performers to render a live 2,325,764 8/1943 Gall 84/484 X performance in perfect synchronism with playback of l Schmoyer the recorded musical material 3,595,122 7/1971 Brediceanu 84/484 10/1973 Nakada et al 84/103 4 Claims, 1 Drawing Figure INDICAToQ PANEL 75 I? F lo 42- LAMP 4 I Da'recroQ DQn/EQ Q9 osuLLAToQ 24 F? 44- F2 LAMP t De-recToQ DQu/EIZ osutucroe 26 o N544 TRACK NO-A TRACK '6 INPUT OIJ'TPUT F3 om .3 TRACK ND.3 TRACK 46- F3 LAMP t 70 o lNPuT ouTPuT DETELTGE Dan/E2 Q osmium-o2 No.2 TRACK No.2 TEAL! ,4
- 2 33 INPUT ooTPu-r ND! TzACK NgblJPQuATCK 60 F4 INPU F4 LAMP I 72 OSCILLATOQ Dar a- 01211512 Q,
4 TRACK TAPE F5 Qe COQOfiIZ F5 LAMP f I 7 OSCILLATDQ 32 omen-re? 0121/52 Q\ 4 F6 2? v F6 LAMP 64 oscutA'mQ psi-aural? 0121/52 1 12 somewhat.
ELECTRONIC MUSICAL CONDUCTOR BACKGROUND OF THE INVENTION mances.
2. History of the Prior Art The advancement and sophistication of sound recording techniques have not only improved the quality of musical recordings but have improved the flexibility in using different techniques and effects to make such recordings. For example, it has become common for the performer or performing group to record two or more different parts of particular musical material, with the different part recordings being combined when producing a record, magnetic tape or other recording. The performers may separately record a foreground? part and several background parts, with all of the parts being combined into one final recording. As a result records, tapes and other recording of popular musical performers or groups of performers have a very rich, full and pleasing quality which becomes associated with particular songs or musical arrangements done by the performers.
Problemsarise, however, when the same performer or group attempts to render the same performance be fore an audience. In the case of television it is common practice to simply-use the record or audio tape in the audio portion of the broadcast and have the performers pantomime the performance. However realism is often lost when such techniques are used, particularly when the performers lack of practice or poor sense of timing prevents close synchronism between the performers lip movements and gestures and the sound which is actually heard. The results can be particularly disastrous in a performance rendered entirely before a live audience. In such situations the disadvantages of combining bine a live performance with one or more recordings to produce the multi-part effect. However this is very difficult to do because of the problem of trying to synchronize the live performance with the recordings. Still .further problems arise when it is considered that the speed of reproduction of the recordings usually varies Problems of a similar nature arise when the multipart recordings themselves are being made. Again it may be very difficult to recordvthe second and subsequent parts in perfect or near perfect synchronism with thefirst part recorded.
The problem of synchronizing a live performance with prerecorded material becomes even more severe in the case of vocalists. Most singers find it very difficult to attempt to listen to one or more prerecorded There are presently available a number of devices or arrangements for providing an indication of the speed of musical material. However such devices are principally of the metronome type in that they are held to a fixed rate or tempo. Where variations in tempo are possible, such variations are mechanical in nature, and in any event do not allow for material which varies significantly or frequently in tempo. Futhermore such devices are very difficult if not impossible to synchronize with one'or more recordings, particularly if the recordings vary in speed.
Accordingly it would be advantageous to provide an arrangement enabling performers to perform in close synchronism with one or more recordings. It would furthermore be advantageous to provide an arrangement which not only allows live performances to be made in synchronism with prerecorded material but which also enables a second and subsequent recordings representing different parts to be made in close synchronism BRIEF DESCRIPTION OF THE INVENTION Arrangements according to the invention generate signals of differing characteristics in response to the individual beats of musical material and record such signals in synchronism with recording of the material. During playback the individual signals are detected and are used to provide indications corresponding to the individual beats of the material in synchronism with playback of the prerecorded material. The performer is thus able to perceive such indications and to thereby render a live performance in synchronism with playback of the prerecorded material. Where multi-part recordings are being made the first part is recorded together with the signals representing the beats. Thereafter the indications provided by the recorded signals are utilized by the performer in recording one or more additional parts. One or more of the recorded parts may then be used during a live performance such as on television or before an audience by having the performer perceive the indications so that his live performance is in synchronism with the playback of prerecorded material. The signals representing the individual beats are generated either in synchronism with recording of material or at will, and in any event are not confined to a fixed tempo.
parts and atthe same time sing a different part. In such In one preferred arrangement of a system according to the invention a plurality of push button switches are sequentially closed in synchronism with the beats of musical material so as to record signals of different frequency together with the material. Upon playback the individual signals are detected according to their frequency and are used to illuminate different ones of a plurality of lamps in a sequence which corresponds to the momentary closure of the push button switches and thereby to the individual beats of the prerecorded material. By observing the illuminated lamps the performer is able to render a performance in close synchronism with the prerecorded material as it is being played back. The arrangement thereby conducts" the performer in synchronism with the prerecorded material.
DETAILED DESCRIPTION A preferred arrangement of an electronic musical conductor according to the invention is illustrated in the single figure of drawing.
The arrangement includes a multi-track recording device which in this instance comprises a 4-track tape recorder 10. The tape recorder 10 includes a 4-track tape deck and an amplifier or other electronics necessary to provide signals of nominal amplitude to an output speaker system. The input of the first track of the tape recorder 10 is coupled through a plurality of switches 12, 14, 16, 18, 20 and 22 to a plurality of oscillators 24, 26, 28, 30, 32 and 34 respectively. Each of the oscillators 24, 26, 28, 30, 32 and 34 generates a signal of different frequency, the frequencies in this instance beingconveniently designated F F F F F 5 and-F The switches 12, l4, 16, 18, 20 and 22 are preferably of the spring-loaded push button type which are normally open and which are closed only so long as depressed.
A- microphone 36 is coupled through a selector switch 38 to one of the inputs of the remaining three tracks of the tape recorder 10. The outputs of these second, third and fourth tracks at the tape recorder are coupled to a speaker system illustrated in the present example as a speaker 40.
The output of the No. 1 track of the tape recorder 10 is coupled to each of a plurality of detectors 42, 44, 46, 48, 50 and 52. As described hereafter the various detectors are tuned in response to frequencies at or substantially equal to the frequency of a different one of the oscillators 24, 26, 28, 30, 32-and 34 to the exclusion of other frequencies. The detectors 42, 44, 46, 48, 50 and 52 are coupled through lamp drivers 54, 56, 58, 60, 62 and 64 respectively to a plurality of lamps 66, 68, 70, 72, 74 and 76 respectively on an indicator panel When a multi-part recording is to be made the microphone 36 is coupled via the switch 38 to the input of the second track of the tape recorder 10 so as to record musical material on the second-track of the tape. At the same time the'various switches 12, 14, 16, 18, 20 and 22 are manually closed in synchronism with the beats of the musical material to record short bursts of the signals of different frequencies from the oscillators 24, 26, 28, 30, 32 and 34 sequentially on the first track of the tape recorder 10 and thereby form a sync track.
During playback the recorded sync signals on the first track of the tape recorder 10 are passed to the various detectors 42, 44, 46, 48, 50 and 52. If the recording on the first track was first begun with a momentary closure of the switch 12, the detector 42 responds to the resulting signal of frequency F l to cause the associated lamp driver 54 to illuminate the lamp 66. Similarly if the next recorded signal on the first track was provided by momentary closure of the switch 14, the detector 44 responds to the corresponding signal of frequency F to cause illumination of the lamp 68 via the lamp driver 56. The various lamps 66, 68, 70, 72, 74 and 76 continue to flash in a sequence determined by the order of closure of the switches 12, 14, l6, 18, 20 and 22 during recording as the recorded material is played back. At the same time the speaker 40 reproduces the prerecorded musical material on the second track of the tape recorder 10.
By observing the lamps of the indicator panel 78 the performer is able to record a further part on the third nism with the recordings on the second and third tracks. The selector switch 38 is positioned to couple the microphone 36 to the input of the fourth track. Thereafter the performer performs the third part as he observes the lamps on the indicator panel 78. The microphone 36 couples the third part for recording in the fourth track of the tape recorder 10.
As described thus far the arrangement of the invention has been used to record musical material in three parts with the three parts being in perfect synchronism with each other. If the recordings made on the tape recorder 10 are now to be used as background for a live performance, the tape recorder 10 is utilized to play back the recordings made in the second, third and fourth tracks from start to finish, the played-back sound being reproduced by an appropriate transducer such as the speaker 40. At the same time the performer watches the lights on the indicator panel 78 as he rens ders a live performance in perfect synchronism with the recorded material. 7
It has been found that with very little practice the switches 12, 14, 16, 18, 20 and 22 can be manipulated by the individual fingers of one hand to record the beat indicating sync signals during a performance. Although any appropriate arrangement of manually operated switches can be used, it has been found that a gang of six switches of the momentary contact type as used in calculators provides a convenient and effective ar-' rangement. While a total of six switches are provided in the present example, other numbers of switches can be used in accordance with the invention. The presence of six switches provides foruse of the arrangement with up to a six beat meter. As a practical matter a meter of four beats or less will be encountered with most musical performances, in which instance the switches 20 and 22 utilizing the frequencies F and F, can be used for special effects. While such special effects can comprise any appropriate type of signaling which may be desired, it has been found that the extra switches may be used to great advantage to indicate abrupt changes in tempo such as in the case of a sustain. Other practical uses include an indication of when a particular in- -of different characteristics such as of different frequency in the present example. An example of a circuit which can be used as the various oscillators is the twin T bridge feedback loop sine wave oscillator circuit em-- ploying the common 741 type of integrated circuit made by Motorola Corporation, Fairchild Semiconductor Corporation and Texas Instruments Company. The frequencies of the oscillators should be chosen so as to avoid beat frequency or harmonic interference type problems, but otherwise can assume any appropriate value in keeping with the frequency response of the tape recorder and the other circuit characteristics of the system. In one example of the invention the various frequencies F F F F F and F comprise 300 Hz, 2300 Hz, 4300 Hz, 6300 Hz, 8300 Hz and 10300 Hz respectively.
The tape recorder 10 can utilize any appropriate multitrack tape deck, with one example being the Sony Model 854. The recorder 10 should have at least two tracks, one for the sync signals and the other for at least one recording of musical material. Other than that the recorder 10 can have any desired number of tracks depending on the desired capabilities of the system and the number of parts of a musical performance to be recorded. The frequency response of the tape recorder 10 must be broad enough to handle the various frequencies from the oscillators as well as to record the various parts of the musical material with reasonable fidelity. It is also desirable that the tape recorder 10 be of the type having a speed adjustment. Thus if the prerecorded musical material is not in tune with the live performance, the speed can be increased or decreased to maintain perfect synchronism therebetween.
The detectors 42, 44, 46, 48, 50 and 52 may comprise any appropriate circuits such as active bandpass filters for responding to signals at or near a selected frequency to the exclusion of signals of other frequency. The 741 type integrated circuit referred to above can comprise the detectors when connected to operate as an active bandpass filter. The characteristics of the detectors should be such that they respond in positive and accurate fashion to signals which have been generated by a corresponding one of the oscillators to the exclusion of signals from the other oscillators. At the same time the bandpass characteristics must be broad enough to compensate for minor frequency variations such as may result when the speed of the tape recorder 10 is changed between recording and playback. The various lamp drivers 54, 56,58, 60, 62 and 64 can comprise any appropriate circuits for driving small lamps such as the commonly used two-stage amplifier in which the lamps are coupled in the collector circuit of the second stage.
While the invention has been particularly shown and described with reference to a preferred embodiment thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.
What is claimed is:
1. A method of rendering a second musical performance in synchronism with the playback of a recorded first musical performance comprising the steps of:
recording the first musical performance as said first performance occurs;
generating a sequence of signals simultaneously with the occurrence of each measure of said first performance, each sequence of signals comprising an ordered set of signals uniquely associated with the order and timing of the beats in each measure as performed;
recording said sequence of signals simultaneously with said recording of said first performance; playing back said recorded first performance and said sequence of signals simultaneously;
- providing an ordered set of indicators to be sensed by the performer of said second musical performance, each of said indicators being actuated by said played back ordered set of signals, whereby each of said indicators is associated with a particular beat of each measure of said first performance; and
rendering said second performance having beats therein in synchronism with said actuated indicators, whereby the beats of said second performance are in synchronism with the order and timing of the corresponding beats of said first performance.
2. The method of claim 1 wherein the step of generating a sequence of signals comprises listening to said first performance as it occurs and manually actuating a plurality of signal generators in predetermined order in synchronism with the occurrence the beats in each measure of said first performance.
3. The method of claim 1 further comprising the step of recording said played back first performance and said rendered second performance.
4. The method of claim 1 wherein said ordered set of indicators are visually sensed by said performer.
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|U.S. Classification||84/484, 84/464.00R, 360/79|