45 file audio bebas royalti untuk "Factor"

Root, in red, of a C major chord.

Sixth (A), in red, of a C added sixth chord. Created by Hyacinth (talk) 15:57, 4 July 2010 using Sibelius 5.

Crazy alien talk original granular excerpt akaized 150% time factor madness, royalty free, do you!ambience field recordings, used granular sythesis and then akaized to get the final results.

Ninth (D), in red, of a C added ninth chord. Created by Hyacinth (talk) 16:46, 4 July 2010 using Sibelius 5.

Electronic dark.

Abadoned factor.

Minibrute noise con brute factor 60% -> tascam dr-60dmkii.

A reverbed paultretched click track. I don't recall the exact bpm though. The paulstretch was of a factor of 1. 0.

Single note sampled from an analog synthesizer by modular samples. Modular samples provides samples of vintage and modern synthesizers for apple exs24, native instruments kontakt, reason and live samplers, with over 50 gigabytes of public domain content. Sampler files and sound packs are also available at http://modularsamples. Com. Synthesizer: fender chroma polarispatch name (pack): limiting factornote: a0midi note: 21midi velocity: 23.

This sound is a smooth square with a 400 hz frequency and the amplitude is 1. I added a 2 echo with 0,6 decline factor. There is a fade of closing down studio.

This sound is a mix between me walking in the grass and me riding book. I applied an echo of 3 seconds with a 4 factor. Moreover, i add an adjustable melted at the beginning of the sound.

Create sci fi machine from cognito_perceptu's "helicopter-takeoff. Wav" sound: audacity (sound is stereo) - cut 29. 0s to 30. 0s. - effect→tremelo…waveform type: sinestarting phase: 0wet level: 50frequency: 10 hz- effect→echo. . Delay time: 0. 01decay factor: 0. 6. - effect→repeat. . . Number of repeats add: 22.

For this sound, i generated a square wave at a frequency of 440 hz and an amplitude of 0. 80 and a duration of 1 second. I choosed the following effects:1- wahwah with frequency f=1. 5hz , amplitude= 70 %, resonance = 2. 5 and offset frequency = 30%2. Repeat3- compressor (x2)4- fade in (half of the sound)5- fade out ( the other half of the sound)6 - phaser with 10 phases7 - paulstretch with the stretching factor=5 and resolution = 0. 258- echo with 1 second delay , decay factor=0. 59 - cut (to arrange the sound). After all this effects, the sound is like a sound recorded in space with echos.

Mono recording. I used a sinusoïde, and i put an effect to change the height (-31. 000, pitch from a to d#/eb). I put an other effect like the phaser (phase 2; dry/web 128; frequency 0. 4; phase departure 0; depth 100; return 0) and an echo (duration 1 sec, factor of diminution 0. 5).

Track was created using audacity®. The track was a generated chirp of 1 sec. Repeated once and then reversed. The gverb filter was used with a low early reflection and high room size value. And then the echo filter with 0. 2 delay time of seconds and decay factor of 0. 5 seconds was applied.

Original sound: http://freesound. Org/people/orpheuz/sounds/258090/. Stochastic sound extracted with sms-tools, hps model, with parameters:windowtype: blackmanwindowsize (m): 1765fftsize (n): 2048# parameters to identify peaks and harmonics:magnitude threshold (t): -100min duration: 0. 1max number of harmonics: 147min f0: 250max f0: 400max error in f0 detection: 7max freq dev in harmonic tracks: 0. 01stochastic approximation factor: 0. 2.

Original sound: http://freesound. Org/people/orpheuz/sounds/258090/. Harmonic sound extracted with sms-tools, hps model, with parameters:windowtype: blackmanwindowsize (m): 1765fftsize (n): 2048# parameters to identify peaks and harmonics:magnitude threshold (t): -100min duration: 0. 1max number of harmonics: 147min f0: 250max f0: 400max error in f0 detection: 7max freq dev in harmonic tracks: 0. 01stochastic approximation factor: 0. 2.

Friend núk (นุก) read name of level 1 in game đôn hổ and use audacity for echo. 2020. 12. 28 ≈13:00. Use audacity:• effect→change speed…-16%. • effect→echo. . . Delay time (seconds): (0. 05)decay factor: 0. 5. • effect→reverb. . . Room size: 100%pre-delay: 27 msreverberence: 28%damping: 30%tone low: 100%tone high: 100%wet gain: 0 dbdry gain: 0 dbstereo width: 100%.

Friend núk (นุก) read name of level 3 in game đôn hổ and use audacity for echo. 2020. 12. 28 ≈13:00. Use audacity:• effect→change speed…-16%. • effect→echo. . . Delay time (seconds): (0. 05)decay factor: 0. 5. • effect→reverb. . . Room size: 100%pre-delay: 27 msreverberence: 28%damping: 30%tone low: 100%tone high: 100%wet gain: 0 dbdry gain: 0 dbstereo width: 100%.

Friend núk (นุก) read name of level 4 in game đôn hổ and use audacity for echo. 2020. 12. 28 ≈13:00. Use audacity:• effect→change speed…-16%. • effect→echo. . . Delay time (seconds): (0. 05)decay factor: 0. 5. • effect→reverb. . . Room size: 100%pre-delay: 27 msreverberence: 28%damping: 30%tone low: 100%tone high: 100%wet gain: 0 dbdry gain: 0 dbstereo width: 100%.

Friend núk (นุก) read name of level 5 in game đôn hổ and use audacity for echo. 2020. 12. 28 ≈13:00. Use audacity:• effect→change speed…-16%. • effect→echo. . . Delay time (seconds): (0. 05)decay factor: 0. 5. • effect→reverb. . . Room size: 100%pre-delay: 27 msreverberence: 28%damping: 30%tone low: 100%tone high: 100%wet gain: 0 dbdry gain: 0 dbstereo width: 100%.

Original sound: http://freesound. Org/people/orpheuz/sounds/258090/. This is a combination of the harmonic component and the stochastic component. It was extracted with sms-tools, hps model, with parameters:windowtype: blackmanwindowsize (m): 1765fftsize (n): 2048# parameters to identify peaks and harmonics:magnitude threshold (t): -100min duration: 0. 1max number of harmonics: 147min f0: 250max f0: 400max error in f0 detection: 7max freq dev in harmonic tracks: 0. 01stochastic approximation factor: 0. 2.

Reconstructed sound get from http://freesound. Org/people/cbeeching/sounds/116913/. Author cbeeching. The parameters used in the analysis are: window-type = hamming; window-size = 1024; fft-size = 2048; magnitude-threshold = -90; minimum-duration-of-harmonic-tracks = 0. 01; maximum-number-of-harmonics = 100; minimum-fundamental-frequency = 50; maximum-fundamental-frequency = 250; maximum-error-in-f0-detection-algorithm = 7; max-frequency-deviation-in-harmonic-tracks = 0. 01; stochastic approximation-factor = 0. 2.

Stochastic part sound get from http://freesound. Org/people/cbeeching/sounds/116913/. Author cbeeching. The parameters used in the analysis are: window-type = hamming; window-size = 1024; fft-size = 2048; magnitude-threshold = -90; minimum-duration-of-harmonic-tracks = 0. 01; maximum-number-of-harmonics = 100; minimum-fundamental-frequency = 50; maximum-fundamental-frequency = 250; maximum-error-in-f0-detection-algorithm = 7; max-frequency-deviation-in-harmonic-tracks = 0. 01; stochastic approximation-factor = 0. 2.

Harmonic part sound get from http://freesound. Org/people/cbeeching/sounds/116913/. Author cbeeching. The parameters used in the analysis are: window-type = hamming; window-size = 1024; fft-size = 2048; magnitude-threshold = -90; minimum-duration-of-harmonic-tracks = 0. 01; maximum-number-of-harmonics = 100; minimum-fundamental-frequency = 50; maximum-fundamental-frequency = 250; maximum-error-in-f0-detection-algorithm = 7; max-frequency-deviation-in-harmonic-tracks = 0. 01; stochastic approximation-factor = 0. 2.

This is a nightingale in a very quiet environment, which is played 4 times slower. The gaps between the verses are removed, otherwise there would be always round about 20 seconds silence. The reverb is natural (no sound effects added), but sounds epic after slow downed with factor 4. The original 96khz/24bit-track was recorded with zoom f8 by using four rode nt1. Recording distance to the nightingale was 5-6 meter. ;-).

Laser beam 20 seconds. Use audacity:. Mono track (left)- tonewaveform: sinefrequency: 400amplitude: 0. 5duration: 00h 00m 20s. Mono track (right)- tonewaveform: sinefrequency: 405amplitude: 0. 5duration: 00h 00m 20s. Mono track (left)- tonewaveform: sinefrequency: 637amplitude: 0. 5duration: 00h 00m 20s. Mono track (right)- tonewaveform: sinefrequency: 651amplitude: 0. 5duration: 00h 00m 20s. Moteurmươngtrâu1. Wav (stereo track) (download at freesound. Com). - change speedspeed multiplier: 0. 800. - change pitchpercent change: 40. - echodelay time: 0. 05decay factor: 0. 9.

This is a trnsformation of the original sound: http://www. Freesound. Org/people/xserra/sounds/254374/ , with the parameters:. For synthesis:window type: hammingwindow size: 801fft size: 2048minimum f0: 160maximum f0: 260number of harmonics: 80threshold: -100minimum length of harmonics:. 1stochastic decimation factor : 0. 2minimum sine duration : 0. 1. For transformation :frequency scaling factors : [0, 0. 4, 1, 0. 4] <- (make frequency lower)frequency stretching factors : [0, 1, 1, 1] <- (no change)timbrepreservation : 1 <- (no change)time scaling factors : [0, 0, 1, 0. 7] <- (faster).

Resynthesized output obtained from the analysis of a sound of erhu : http://freesound. Org/people/ricemutt/sounds/23933/. This was done using the harmonic plus stochastic model implemented in the sms tools: http://mtg. Upf. Edu/technologies/sms. The parameters used for the analysis were:. - window: blackman- window size: 1601- fft size: 2048- magnitude threshold: -90- minimum duration of sinusoidal tracks: 0. 1- maximum number of harmonics: 20- minimum fundamental frequency: 100- maximum fundamental frequency: 2000- maximum error in f0 detection algorithm: 5- max frequency deviation in harmonic tracks: 10stochastic approximation factor: 0. 2.

Create engine 0, use cpolcyn's sound "hummingbird chirps. Flac". Audacity stereo channel:- cut section 17. 490s to 17. 724s. - effect→normailize. . . ✓remove dc offset✓normailze maximum amplitude to: –3. 0✓normalize stereo channels independently. - select section: 0. 139s to 0. 235s. - effect→noise reductionget noise profile. - select all. - effect→noise reductionnoise reduction (db): 12sensitivity: 6frequency smoothing (bands): 3. - remove section after 0. 150s. - select section: 0. 100s to 0. 150s. - effect→fade out. - generate→silence… (start at 0. 150s)duration: 00h 00m 10. 000s. - select all. - effect→echo…delay time: 0. 08decay factor: 1.

Harmonic component obtained from the analysis of a female speech sound: http://www. Freesound. Org/people/xserra/sounds/254374/. This was done using the harmonic plus stochastic model implemented in the sms tools: http://mtg. Upf. Edu/technologies/sms. The parameters used for the analysis were:. - window: blackman- window size: 2001- fft size: 2048- magnitude threshold: -100- minimum duration of sinusoidal tracks: 0. 05- maximum number of harmonics: 100- minimum fundamental frequency: 150- maximum fundamental frequency: 250- maximum error in f0 detection algorithm: 5- max frequency deviation in harmonic tracks: 0. 05stochastic approximation factor: 1.

Stochastic component obtained from the analysis of a sound of erhu : http://freesound. Org/people/ricemutt/sounds/23933/. This was done using the harmonic plus stochastic model implemented in the sms tools: http://mtg. Upf. Edu/technologies/sms. The parameters used for the analysis were:. - window: blackman- window size: 1601- fft size: 2048- magnitude threshold: -90- minimum duration of sinusoidal tracks: 0. 1- maximum number of harmonics: 20- minimum fundamental frequency: 100- maximum fundamental frequency: 2000- maximum error in f0 detection algorithm: 5- max frequency deviation in harmonic tracks: 10stochastic approximation factor: 0. 2.

Harmonic plus stochastic resynthesis of the female speech sound: http://www. Freesound. Org/people/xserra/sounds/254374/. This was done using the harmonic plus stochastic model implemented in the sms tools: http://mtg. Upf. Edu/technologies/sms. The parameters used for the analysis were:. - window: blackman- window size: 2001- fft size: 2048- magnitude threshold: -100- minimum duration of sinusoidal tracks: 0. 05- maximum number of harmonics: 100- minimum fundamental frequency: 150- maximum fundamental frequency: 250- maximum error in f0 detection algorithm: 5- max frequency deviation in harmonic tracks: 0. 05stochastic approximation factor: 1.

Harmonic component obtained from the analysis of a sound of erhu : http://freesound. Org/people/ricemutt/sounds/23933/. This was done using the harmonic plus stochastic model implemented in the sms tools: http://mtg. Upf. Edu/technologies/sms. The parameters used for the analysis were:. - window: blackman- window size: 1601- fft size: 2048- magnitude threshold: -90- minimum duration of sinusoidal tracks: 0. 1- maximum number of harmonics: 20- minimum fundamental frequency: 100- maximum fundamental frequency: 2000- maximum error in f0 detection algorithm: 5- max frequency deviation in harmonic tracks: 10stochastic approximation factor: 0. 2.

This is a trnsformation of the original sound: http://freesound. Org/people/ricemutt/sounds/23933/ , with the parameters:. For synthesis:window type: blackmanwindow size: 801fft size: 1024minimum f0: 100maximum f0: 2500number of harmonics: 20 (we don't need too many harmonic here)threshold: -100stochastic decimation factor : 0. 1minimum sine duration : 0. 1. For transformation :frequency scaling factors : [0,1,0. 4,1,0. 6,0. 9,1. 0,0. 5,1. 2,0. 3,1. 4,0. 6] <- (make frequency variation steady)frequency stretching factors : [0,2,0. 5,1,0. 51,0. 7] <- (create a frequency variation, high->low )timbrepreservation : 1 <- (no change)time scaling factors : [0, 0, 0. 8, 1. 5,1. 0,2] <- (make some "free fall" feeling).

Harmonic sinusoidal output sound obtained by analysis and synthesis of sound speech-female. Wav (http://freesound. Org/people/xserra/sounds/317745/) with harmonic plus stochastic model implemented in the sms-tools software package (http://github. Com/mtg/sms-tools)parameters used in analysis are :- window type = blackman, window size(m) = 2019, fft size(n) = 2048, magnitude threshold in db(t) = -100, minimum duration of harmonic tracks = 0. 1, maximum number of harmonics = 100, minimum fundamental frequency = 80, maximum fundamental frequency = 300, maximum error in f0 detection algorithm = 5, max frequency deviation in harmonic tracks = 0. 01,stochastic approximation factor = 0. 7.

Stochastic synthesis output sound obtained by analysis and synthesis of sound speech-female. Wav (http://freesound. Org/people/xserra/sounds/317745/) with harmonic plus stochastic model implemented in the sms-tools software package (http://github. Com/mtg/sms-tools)parameters used in analysis are :- window type = blackman, window size(m) = 2019, fft size(n) = 2048, magnitude threshold in db(t) = -100, minimum duration of harmonic tracks = 0. 1, maximum number of harmonics = 100, minimum fundamental frequency = 80, maximum fundamental frequency = 300, maximum error in f0 detection algorithm = 5, max frequency deviation in harmonic tracks = 0. 01,stochastic approximation factor = 0. 7.

Synthesis output sound obtained by analysis and synthesis of sound speech-female. Wav (http://freesound. Org/people/xserra/sounds/317745/) with harmonic plus stochastic model implemented in the sms-tools software package (http://github. Com/mtg/sms-tools)parameters used in analysis are :- window type = blackman, window size(m) = 2019, fft size(n) = 2048, magnitude threshold in db(t) = -100, minimum duration of harmonic tracks = 0. 1, maximum number of harmonics = 100, minimum fundamental frequency = 80, maximum fundamental frequency = 300, maximum error in f0 detection algorithm = 5, max frequency deviation in harmonic tracks = 0. 01,stochastic approximation factor = 0. 7.

Stochastic synthesis output sound obtained by analysis and synthesis of veena concert sound (https://www. Freesound. Org/people/anjds/sounds/377315/ ) with harmonic plus stochastic model implemented in the sms-tools software package (http://github. Com/mtg/sms-tools)parameters used in analysis are :- window type = blackman, window size(m) = 1575, fft size(n) = 2048, magnitude threshold in db(t) = -100, minimum duration of harmonic tracks = 0. 01, maximum number of harmonics = 100, minimum fundamental frequency = 100, maximum fundamental frequency = 800, maximum error in f0 detection algorithm = 5, max frequency deviation in harmonic tracks = 0. 01,stochastic approximation factor = 0. 2.

Synthesis output sound obtained by analysis and synthesis of veena concert sound (https://www. Freesound. Org/people/anjds/sounds/377315/ ) with harmonic plus stochastic model implemented in the sms-tools software package (http://github. Com/mtg/sms-tools)parameters used in analysis are :- window type = blackman, window size(m) = 1575, fft size(n) = 2048, magnitude threshold in db(t) = -100, minimum duration of harmonic tracks = 0. 01, maximum number of harmonics = 100, minimum fundamental frequency = 100, maximum fundamental frequency = 800, maximum error in f0 detection algorithm = 5, max frequency deviation in harmonic tracks = 0. 01,stochastic approximation factor = 0. 2.

Harmonic sinusoidal output sound obtained by analysis and synthesis of veena concert sound (https://www. Freesound. Org/people/anjds/sounds/377315/ ) with harmonic plus stochastic model implemented in the sms-tools software package (http://github. Com/mtg/sms-tools)parameters used in analysis are :- window type = blackman, window size(m) = 1575, fft size(n) = 2048, magnitude threshold in db(t) = -100, minimum duration of harmonic tracks = 0. 01, maximum number of harmonics = 100, minimum fundamental frequency = 100, maximum fundamental frequency = 800, maximum error in f0 detection algorithm = 5, max frequency deviation in harmonic tracks = 0. 01,stochastic approximation factor = 0. 2.

Stochastic approximation of the residual signal obtained after subtracting the harmonics from a female speech sound: http://www. Freesound. Org/people/xserra/sounds/254374/. This was done using the harmonic plus stochastic model implemented in the sms tools: http://mtg. Upf. Edu/technologies/sms. The parameters used for the analysis were:. - window: blackman- window size: 2001- fft size: 2048- magnitude threshold: -100- minimum duration of sinusoidal tracks: 0. 05- maximum number of harmonics: 100- minimum fundamental frequency: 150- maximum fundamental frequency: 250- maximum error in f0 detection algorithm: 5- max frequency deviation in harmonic tracks: 0. 05stochastic approximation factor: 1.

Piano sound produced with fl studio 10 for the aspma course peer assesment 7 (part 2). Original sound from http://freesound. Org/people/hmartelb/sounds/328547/. This sound is the stochastic component of the hps model analysis using sms-tools. The parameters used in the analysis were:. Window-type = hamming;window-size = 3001;fft-size = 4096;magnitude-threshold = -120;minimum-duration-of-harmonic-tracks = 0. 1;maximum-number-of-harmonics = 200;minimum-fundamental-frequency = 80;maximum-fundamental-frequency = 280;maximum-error-in-f0-detection-algorithm = 5;max-frequency-deviation-in-harmonic-tracks = 0. 01;stochastic approximation-factor = 0. 05;.

Made from taking two large atx (the form factor, the chassis) computer panels (that i havent used in quite some time), rubbing the entirety of them together quite brashly (one is on the ground), keeping the recorder on xy setup in my other hand in unison then dropping them onto each other. Inside of reaper, i begin changing the rate and pitching them down and applied saturation, distortion and reverberation gave them a very clean effect of a decrepit gate shutting down. Good for trapping your enemies in a battle to the death for which the title is inspired from; one of those tension moments a person in a film/game finds themselves in.

Sound created from using the rings of saturn as a spectral source to a series of filters. When a 1 pixel high image of the rings is extracted it looks like a spectrogram (original: https://en. Wikipedia. Org/wiki/file:saturn%27s_rings_dark_side_mosaic. Jpg). The ring spectrogram was divided into three color planes, and the color intensity values were transformed into resonant filter cutoff frequencies. In essence one filter unit (per color plane) has 256 sounds playing simultaneously. The individual filters are placed along the x-axis so, that the stereo image consists of 256 steps from left to right. In this sound of the series the spectrum was compressed to a range of 20 - 1000 hz. A small variation in certain divider factor per color plane is introduced for a slight chorus like effect.