Title: | AntsOMG: A Framework Aiming to Automate Creativity and Intelligent Behavior with a Showcase on Cantus Firmus Composition and Style Development |
Authors: | Chang, Chun-yien Chen, Ying-Ping 人文社會學院 資訊工程學系 College of Humanities and Social Sciences Department of Computer Science |
Keywords: | intelligent behavior;autonomous style development;music composition automation;cantus firmus;artificial intelligence;ants on multiple graphs;AntsOMG |
Issue Date: | 1-Aug-2020 |
Abstract: | Creative behavior is one of the most fascinating areas in intelligence. The development of specific styles is the most characteristic feature of creative behavior. All important creators, such as Picasso and Beethoven, have their own distinctive styles that even non-professional art lovers can easily recognize. Hence, in the present work, attempting to achieve cantus firmus composition and style development as well as inspired by the behavior of natural ants and the mechanism of ant colony optimization (ACO), this paper firstly proposes a meta-framework, called ants on multiple graphs (AntsOMG), mainly for roughly modeling creation activities and then presents an implementation derived from AntsOMG for composing cantus firmi, one of the essential genres in music. Although the mechanism in ACO is adopted for simulating ant behavior, AntsOMG is not designed as an optimization framework. Implementations can be built upon AntsOMG in order to automate creation behavior and realize autonomous development on different subjects in various disciplines. In particular, an implementation for composing cantus firmi is shown in this paper as a demonstration. Ants walk on multiple graphs to form certain trails that are composed of the interaction among the graph topology, the cost on edges, and the concentration of pheromone. The resultant graphs with the distribution of pheromone can be interpreted as a representation of cantus firmus style developed autonomously. Our obtained results indicate that the proposal has an intriguing effect, because significantly different styles may be autonomously developed from an identical initial configuration in separate runs, and cantus firmi of a certain style can be created in batch simply by using the corresponding outcome. The contribution of this paper is twofold. First, the presented implementation is immediately applicable to the creation of cantus firmi and possibly other music genres with slight modifications. Second, AntsOMG, as a meta-framework, may be employed for other kinds of autonomous development with appropriate implementations. |
URI: | http://dx.doi.org/10.3390/electronics9081212 http://hdl.handle.net/11536/155307 |
DOI: | 10.3390/electronics9081212 |
Journal: | ELECTRONICS |
Volume: | 9 |
Issue: | 8 |
Begin Page: | 0 |
End Page: | 0 |
Appears in Collections: | Articles |