Thummer keyboard

From Encyc
File:Thummer.jpg
A working prototype Thummer.

A Thummer is a proposed commercial musical instrument characterized by

  1. at least one isomorphic keyboard, and
  2. thumb-operated and/or motion-sensing expressive controls.

The Thummer was to be a type of jammer keyboard. Research suggests that the jammer's combination of thumb-controls and internal motion sensors could give more expressive potential than other polyphonic musical instruments such as the piano, guitar, and accordion.[1] Isomorphic keyboards similar to those used in a jammer have been shown to accelerate the rate at which students grasp otherwise-abstract concepts in music theory.[2][3]

History[edit]

Origin of jammer and Thummer[edit]

The jammer keyboard was invented by Jim Plamondon in September 2003, whereupon he founded Thumtronics to design its "Thummer(tm)-brand jammer" and bring it to market, the trade name was to empathize the unique thumb-control feature. Prototype Thummers were produced, but the effort to commercialize them failed, and Thumtronics was disbanded in mid-2009.

However the concepts developed and publicized by the company are still being developed by alternate-keyboard enthusiasts.

"Jammer" versus the "Thummer" name[edit]

Just as Kleenex(tm) is a trademarked brand of facial tissue, and the Stratocaster(tm) is a trademarked brand of electric guitar, the Thummer was intended to be a trademarked brand of "a new kind of musical instrument." The term jammer was introduced to give that "new kind of musical instrument" a generic, non-trademarked name.

Design Goals[edit]

Thumtronics' design goals for the Thummer, which continue to influence the independent development of jammers, were the 7 "E"s:

  1. Easy: Facilitate the rapid acquisition of a self-sustaining level of musical competence in both composition and performance.
  2. Expressive: Offer more expressive potential than most musical instruments.
  3. Ergonomic: Place significantly less stress on its player's body than the average traditional musical instrument.
  4. Ergonomic: Place the keys and other controls within easy, fast reach.
  5. Expansive: Expand the frontiers of music-making, by (a) providing a single interface for the performance of the music of all known past and present human cultures, and (b) enabling the exploration and control of new tonalities (via effects such as Dynamic tonality).
  6. Everywhere: Be sufficiently portable to go everywhere, from concert hall to campfire.
  7. Everyone: Affordable (once in high-volume production) by people living at the First World's poverty level.

Features[edit]

How the fingers are positioned to play a thummer.
A controller with thumb-operated joysticks.
  1. At least one 2-dimensional keyboard in a hexagonal array; preferably, one for each hand.
    The keys of the left-hand instrument are mirror-imaged to those on the right, to match the mirroring of one's hands.
  2. Notes assigned to the array using the Wicki/Hayden note-layout.[4]
  3. At least one thumb-operated expressive control (such as the thumb-operated joysticks found on seventh-generation video game controllers).
  4. Optionally, other expressive controls, such as internal motion-sensors (such as those found in the Wii Remote video game controller), foot-pedals, breath controllers, etc.

Advantages over a standard keyboard[edit]

The Thummer was intended to have these advantages over a piano-style keyboard
Advantage Reason
Simple to learn Music intervals are mapped to the same vector: a consistent angle and spacing
Easy to play only one fingering needs be learned, instead of the 24 (12 for each hand) needed for the standard keyboard
Fast to play The average distance the fingers need to move is reduced by a factor of 10 or more:


from centimeters to millimeters for a I-IV-V7-I chord progression,
from decimeters to centimeters for a octave shift

Greater musical intervals can be played by each hand at once 2 octave rage in normal hand position using 4 fingers, 3-4 octaves if the thumb is used
More notes can be played due to the ability to play several consonant notes at once.
example a 9th , 10th 12th and 15th chord can be played easily with the hand in normal position


up to a four-octave span can be played by turning the hand sideways
1-3 consonant keys may be played by a fingertip.

multiple concordant notes can be played with one finger consonant notes are placed adjacent to each other
Variety of novel glissandos a glissando of fourths, fifths and major seconds are easily played
Separate expressiveness controls for each hand Allows twice the choice of expressive options, e.g. Sustain pedal
Capable of more sounds than a traditional keyboard has two keyboards which each can be assigned to a separate instrument
has controls providing more degrees of freedom than a traditional keyboard instrument, so in principle can offer greater expressiveness
places notes in a pattern that matches the natural harmonics

(add picture showing harmonics and W/H pattern overlay)

separate keys for flat and sharp notes this unique feature allows more accurate, just tuning of the notes of the keyboard, as well as a host of tuning options
(many, many links here)
Lightweight and portable smaller and lighter than a guitar

Limitations and disadvantages over a standard keyboard[edit]

  • The distance between chromatic intervals is greater
  • Not all chord inversions are easy to finger
  • Some reviewers believe chromatic scales are harder to play
  • Harder to learn than the piano in C major
  • No teachers or body of pedagogy
  • Fingering techniques are still being developed
  • No formal theory of play has been developed, although one is under development, and related to standard jazz "jamming" techniques.
  • High cost of hexagonal keyboards relative to the standard keyboard (given current sales volumes)

Design Rationale[edit]

Of the large number of isomorphic {link} note-assignment possible, the Thummer's Wicki-Hayden format was chosen since all notes of the major and minor scales fall under the fingers and the relative simplicity of relating it to conventional music notation.

Standard fingering position. Note the small travel distance to many notes.

All chords found in conventional chord progressions (I, ii, iii, IV, V, vi and viii, as well as others), in most inversions, can be easily played in the jammer arrangement with minimal hand movement.

This layout also places the octaves ascending vertically, increasing the notes playable at once, easing chord inversions and greatly reducing the time needed to move to a new note.

Ergonomic Factors[edit]

Although no one became expert on a Thummer, the still live Thumtronics website has demonstrations and examples of the instrument showing its unique expressive features.

Fitts law {link} predicts that the jammer will be very significantly faster to play that a conventional keyboard. The expected playing speed is (log base 2 (30% smaller key / ~1000% distance decrease), or about 75% less to time find and press an average key.

Commercially available[edit]

Many isomorphic keyboards are commercially available, including:

  1. AXIS-64, uses the Harmonic Table note-layout
  2. Chameleon, uses the Melodic Table note-layout
  3. Stagi Hayden Duet Concertina, uses the Wicki note-layout, shown in Figure 1 above (known as the 'Hayden' layout by concertina players)

Software[edit]

  1. Wicki.org.uk, free UK site containing Java, Flash, and PC applications to enable users to play their alpha-numeric keyboard to sound 12 equal tempered pitches using Wicki/Hayden or Janko keyboard layout.

References[edit]

  1. Paine, G. (2007). "The Thummer Mapping Project (ThuMP)" (PDF). Proceedings of the 7th international conference on New Interfaces for Musical Expression (NIME07): 70–77. Unknown parameter |coauthors= ignored (|author= suggested) (help); Check |authorlink= value (help)
  2. Holland, S. (1993). "Learning about harmony with Harmony Space: An overview". Proceedings of the 1993 World Conference on Artificial Intelligence in Education on Music Education (AI-ED 93): 24–40.
  3. Bergstrom, T. (2007). "Isochords: visualizing structure in music". Proceedings of Graphics Interface 2007. Unknown parameter |coauthors= ignored (|author= suggested) (help)
  4. Milne, Andrew (2008). "Tuning Continua and Keyboard Layouts". Journal of Mathematics and Music. 2 (1): 1–19. Retrieved 2009/20/09. Unknown parameter |month= ignored (help); Unknown parameter |coauthors= ignored (|author= suggested) (help); Check |authorlink= value (help); Check date values in: |accessdate= (help)


Further links: Isomorphic keyboards
The Generalized keyboard

Category:Musical instruments Category:Music Theory

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