Metamorphosis: Caterpillar to Butterfly Ver2
/ The Last Chapter: from Pupa to Butterfly. The First Chapter: From Caterpillar to Pupa 8:50 /
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Van Gogh / Sargent / Velázquez
Vincent van Gogh:
/ Road with Cypress and Star 4:35 / Wheat Field with Cypresses 3:00 / The Sower 3:36 /
| Previous Stage Studies |
John Singer Sargent: Diego Velázquez:
/ Theodore_Roosevelt 7:10 / Lady Agnew of Lochnaw 6:10 / Retrato de Juan Pareja 7:00 /
| Project Application: Developed by Kenji Kojima |
This app does not distribute.
Show: Japanese / 日本語
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正方形の色彩パターンは、ゲルハルト・リヒターの「Series of Color Chart」やエルズワース・ケリーの「Spectrum Colors Arranged by Chance」と同じような印象を受けるかもしれません。 彼らのアイデアは共に、絵の具という物質で絵を描くことから生まれました。 フランスの後期印象派のジョルジュ・スーラは、キャンバス上で物理的にではなく、鑑賞する人が視覚的で色を混合することを考えました。
このプロジェクトはビット演算（コンピュータのデータをビット単位で論理演算）を使って、最も基本的なデジタル・マテリアルであるバイナリからできている色彩を、直接「ワンタイムパッド」と呼ばれる暗号化技術を使って操作します。 デジタル ・カラー画像のピクセルには、光の３原色である赤、緑、青が含まれています。プロジェクトのアルゴリズムは、乱数でピクセルをバイナリ・レベルで分割し、2つのモザイク画像を作ります。モザイクには、オリジナル画像の半分づつの暗号化された視覚情報が含まれています。またアルゴリズムはピクセルのカラー値を音符に変換して演奏します。次に2つのモザイク・データを元の画像に融合させ、ピクセルのカラー値を音符に変換して再生します。プロジェクトは段階を追って発展し、ゴッホの糸杉は現実世界とのつながりを考えてみました。
Hide: Japanese / 日本語
Natural language processing is the pinnacle of advanced computer languages in the realm of artwork creation. However, I envision binary as the fundamental material for its construction, eschewing the collection of banal stereotyped art forms in AI. What artists can do now is not to collect past data with AI, but to create data that AI cannot collect. One of them is to make binaries the most basic art material. Because data is a collection of continuous single values. I looked at the deep relationship between sight and sound and realized that when they are expressed digitally, they share a common foundation in binary code. This principle extends beyond the visual and auditory realms to encompass all other forms of media. To this day, all forms of media are expressed in the language of binaries. I thought about the possibility of exchanging or transforming their data into alternative forms. When we represent these media in digital works, we inevitably return to the realm of binaries.
This project delves into the manipulation of pixel colors. Given a very large quantity of pixels in an image, I opted to convert the image into a mosaic format for ease in the production process. The resulting mosaic, composed of colored square patterns, evokes a similar aesthetic as Gerhard Richter's "Series of Color Chart" paintings from the early 1970s or Ellsworth Kelly's earlier "Spectrum Colors Arranged by Chance" paintings from the 1950s. These artistic concepts drew inspiration from physical tube colors. However, this project draws inspiration from Georges Seurat, the French Post-Impressionist painter, who sought to engage the viewer's eye by optically blending colors instead of physically mixing them on the canvas. Embracing Seurat's idea, this project merges two binary color elements into a digital color blend.
The focus of this project is to manipulate the colors of binary data, the basic digital material manipulated by bitwise operations. In a digital color image, each pixel contains three primary light colors: red, green, and blue. The project's algorithm, which uses bitwise XOR operations with random numbers, splits the original image data into two mosaics using an encryption technique known as a one-time pad. Conceptually, the resulting pair of mosaic images can be compared to a cipher and a key. It also converts pixel color values into musical notes using Kenji Kojima's RGB Music method. The one-time pad uses the same number of pairs of mosaic images, music data takes too long for music, so the project uses double the size of mosaic data for shorter music. Each mosaic image contains half of the visual information present in the original image. The project's algorithm then merges the two mosaic data sets back into the original image, accompanied by playback of the original mosaic values. With a thematic focus on Van Gogh's cypress tree, the artworks sought to make a connection to the real world. In the latest work, "Metamorphosis: Caterpillar to Butterfly" a concrete image of a caterpillar was used instead of random numbers for a one-time pad.
Show: Kenji Kojima's Biography
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Kenji Kojima is a digital artist. He has been experimenting with the relationships between perception and cognition, technology, music, and visual art since the early 1990s. Primarily he has interested in the relationship between seeing and hearing. He was born in Japan and moved to New York in 1980. He painted egg tempera paintings that were medieval art materials and techniques for the first 10 years in New York City. His paintings were collected by Citibank, Hess Oil, and others. The personal computer improved rapidly during the 1980s. He felt more comfortable with computer art than paintings. He switched His artwork to digital in the early 1990s. His early digital works were archived in the New Museum - Rhizome, New York. He developed the computer software "RGB MusicLab" in 2007 and created an interdisciplinary work exploring the relationship between images and music. He programmed the software “Luce” for the “Techno Synesthesia” project in 2014. His digital art series was exhibited in New York, at media art festivals worldwide, including Europe, Brazil, and Asia, and the online exhibitions by ACM SIGGRAPH and FILE, etc. Anti-nuclear artwork “Composition FUKUSHIMA 2011” was collected in CTF Collective Trauma Film Collections / ArtvideoKoeln in 2015. He started the new series "The Musical Interpretation of Paintings and Photographs" which creates music from image data in 2021. LiveCode programmer. https://kenjikojima.com/
Hide: Kenji Kojima's Biography