Development of morphology based on resource distribution: Finding the shortest path in a maze by vascular morphogenesis controller.

Payam Zahadat; Daniel Nicolas Hofstadler; Thomas Schmickl

doi:10.7551/ecal_a_071

Development of morphology based on resource distribution: Finding the shortest path in a maze by vascular morphogenesis controller.

Payam Zahadat
, Daniel Nicolas Hofstadler
, Thomas Schmickl

University of Graz

Research output: Conference Article in Proceeding or Book/Report chapter › Article in proceedings › Research › peer-review

Abstract

Morphogenesis in biological systems is controlled by the parameters encoded in the genomes and rules of interaction between different components of the system and environment. Several methods are proposed for developing morphology of artificial structures. Some of them are inspired by embryogenesis in biological organisms. Others use more abstract generative encodings such as variances of L-systems. Our approach to morphogenesis is based on the distribution of a common resource between competing components of a growing system. The novel distributed controller called Vascular Morphogenesis Controller (VMC) is inspired by the growth process of plants and more specifically the competition between different branches for developing vessels and thus for further growth. The initial algorithm is introduced for modular robots. Here we use it to solve a maze.

Original language	English
Title of host publication	Proceedings of fourteenth European Conference on Artificial Life
Number of pages	2
Publisher	MIT Press
Publication date	1 Sept 2017
Pages	428-429
DOIs	https://doi.org/10.7551/ecal_a_071
Publication status	Published - 1 Sept 2017
Externally published	Yes
Event	European Conference on Artificial Life - Lyon, France Duration: 4 Sept 2017 → 8 Sept 2017 Conference number: 14 https://project.inria.fr/ecal2017/

Conference

Conference	European Conference on Artificial Life
Number	14
Country/Territory	France
City	Lyon
Period	04/09/2017 → 08/09/2017
Internet address	https://project.inria.fr/ecal2017/

Keywords

Morphogenesis
Vascular Morphogenesis Controller
Distributed control
Modular robots
Maze solving

Access to Document

10.7551/ecal_a_071

FloraRobotica: Societies of Symbiotic Robot-plant Bio-Hybrids as social Architectural Artifacts
Støy, K. (PI), Veenstra, F. (CoI), Zahadat, P. (CoI), Nielsen, S. A. (CoI), Blichfeldt, T. (CoI), Schmidt, M. (CoI) & Risi, S. (PI)
European Commission
01/04/2015 → 31/03/2019
Project: Research

Cite this

@inproceedings{99a2fe7db0b24e96855a4cbbc455f700,

title = "Development of morphology based on resource distribution: Finding the shortest path in a maze by vascular morphogenesis controller.",

abstract = "Morphogenesis in biological systems is controlled by the parameters encoded in the genomes and rules of interaction between different components of the system and environment. Several methods are proposed for developing morphology of artificial structures. Some of them are inspired by embryogenesis in biological organisms. Others use more abstract generative encodings such as variances of L-systems. Our approach to morphogenesis is based on the distribution of a common resource between competing components of a growing system. The novel distributed controller called Vascular Morphogenesis Controller (VMC) is inspired by the growth process of plants and more specifically the competition between different branches for developing vessels and thus for further growth. The initial algorithm is introduced for modular robots. Here we use it to solve a maze.",

keywords = "Morphogenesis, Vascular Morphogenesis Controller, Distributed control, Modular robots, Maze solving",

author = "Payam Zahadat and Hofstadler, \{Daniel Nicolas\} and Thomas Schmickl",

year = "2017",

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day = "1",

doi = "10.7551/ecal\_a\_071",

language = "English",

pages = "428--429",

booktitle = "Proceedings of fourteenth European Conference on Artificial Life",

publisher = "MIT Press",

address = "United States",

note = "European Conference on Artificial Life<br/>, ECAL 2017 ; Conference date: 04-09-2017 Through 08-09-2017",

url = "https://project.inria.fr/ecal2017/",

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Zahadat, P, Hofstadler, DN & Schmickl, T 2017, Development of morphology based on resource distribution: Finding the shortest path in a maze by vascular morphogenesis controller. in Proceedings of fourteenth European Conference on Artificial Life. MIT Press, pp. 428-429, European Conference on Artificial Life
, Lyon, France, 04/09/2017. https://doi.org/10.7551/ecal_a_071

Development of morphology based on resource distribution: Finding the shortest path in a maze by vascular morphogenesis controller. / Zahadat, Payam; Hofstadler, Daniel Nicolas; Schmickl, Thomas.
Proceedings of fourteenth European Conference on Artificial Life. MIT Press, 2017. p. 428-429.

Research output: Conference Article in Proceeding or Book/Report chapter › Article in proceedings › Research › peer-review

TY - GEN

T1 - Development of morphology based on resource distribution: Finding the shortest path in a maze by vascular morphogenesis controller.

AU - Zahadat, Payam

AU - Hofstadler, Daniel Nicolas

AU - Schmickl, Thomas

N1 - Conference code: 14

PY - 2017/9/1

Y1 - 2017/9/1

N2 - Morphogenesis in biological systems is controlled by the parameters encoded in the genomes and rules of interaction between different components of the system and environment. Several methods are proposed for developing morphology of artificial structures. Some of them are inspired by embryogenesis in biological organisms. Others use more abstract generative encodings such as variances of L-systems. Our approach to morphogenesis is based on the distribution of a common resource between competing components of a growing system. The novel distributed controller called Vascular Morphogenesis Controller (VMC) is inspired by the growth process of plants and more specifically the competition between different branches for developing vessels and thus for further growth. The initial algorithm is introduced for modular robots. Here we use it to solve a maze.

AB - Morphogenesis in biological systems is controlled by the parameters encoded in the genomes and rules of interaction between different components of the system and environment. Several methods are proposed for developing morphology of artificial structures. Some of them are inspired by embryogenesis in biological organisms. Others use more abstract generative encodings such as variances of L-systems. Our approach to morphogenesis is based on the distribution of a common resource between competing components of a growing system. The novel distributed controller called Vascular Morphogenesis Controller (VMC) is inspired by the growth process of plants and more specifically the competition between different branches for developing vessels and thus for further growth. The initial algorithm is introduced for modular robots. Here we use it to solve a maze.

KW - Morphogenesis

KW - Vascular Morphogenesis Controller

KW - Distributed control

KW - Modular robots

KW - Maze solving

U2 - 10.7551/ecal_a_071

DO - 10.7551/ecal_a_071

M3 - Article in proceedings

SP - 428

EP - 429

BT - Proceedings of fourteenth European Conference on Artificial Life

PB - MIT Press

T2 - European Conference on Artificial Life<br/>

Y2 - 4 September 2017 through 8 September 2017

ER -

Development of morphology based on resource distribution: Finding the shortest path in a maze by vascular morphogenesis controller.

Abstract

Conference

Keywords

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Projects

FloraRobotica: Societies of Symbiotic Robot-plant Bio-Hybrids as social Architectural Artifacts

Cite this