Morphogenesis allows millions of cells to self-organize into intricate structures with a wide variety of functional shapes during embryonic development. This process emerges from local interactions of cells under the control of gene circuits that are identical in every cell, robust to intrinsic noise, and adaptable to changing environments. Constructing human technology with these properties presents an important opportunity in swarm robotic applications ranging from construction to exploration. Morphogenesis in nature may use two different approaches: hierarchical, top-down control or spontaneously self-organizing dynamics such as reaction-diffusion Turing patterns. Here, we provide a demonstration of purely self-organizing behaviors to cr...
Engineers are torn between an attitude of strong design and dreams of autonomous devices. They want ...
This paper presents a simple decentralised morphology control mechanism for a swarm of self-assembli...
Self-assembling robots have the potential to undergo autonomous morphological adaptation. However, d...
Morphogenesis allows millions of cells to self-organize into intricate structures with a wide variet...
Morphogenetic engineering aims to achieve functional, self-organized but controllable structures in ...
Guo H, Meng Y, Jin Y. Swarm robot pattern formation using a morphogenetic multi-cellular based self-...
Jin Y, Meng Y, Guo H. A morphogenetic self-organization algorithm for swarm robotic systems using re...
Meng Y, Guo H, Jin Y. A morphogenetic approach to flexible and robust shape formation for swarm robo...
Complex systems are composed of a large number of relatively simple entities interacting with each ...
Jin Y, Meng Y. Morphogenetic Robotics - An Evolutionary Developmental Approach to Morphological and ...
Abstract—In this paper, we report on ongoing work on SWARMORPH which is a novel distributed mecha-ni...
Swarm robotics is the collaboration of a large number of robots to accomplish a set of specified tas...
Embryonic development of multicellular organisms, also known as morphogenesis, is regarded as a robu...
The Problem: In this research, we propose to use morphogenesis and developmental biology as a source...
Outside biological and social systems, natural pattern formation is essentially “simple ” and random...
Engineers are torn between an attitude of strong design and dreams of autonomous devices. They want ...
This paper presents a simple decentralised morphology control mechanism for a swarm of self-assembli...
Self-assembling robots have the potential to undergo autonomous morphological adaptation. However, d...
Morphogenesis allows millions of cells to self-organize into intricate structures with a wide variet...
Morphogenetic engineering aims to achieve functional, self-organized but controllable structures in ...
Guo H, Meng Y, Jin Y. Swarm robot pattern formation using a morphogenetic multi-cellular based self-...
Jin Y, Meng Y, Guo H. A morphogenetic self-organization algorithm for swarm robotic systems using re...
Meng Y, Guo H, Jin Y. A morphogenetic approach to flexible and robust shape formation for swarm robo...
Complex systems are composed of a large number of relatively simple entities interacting with each ...
Jin Y, Meng Y. Morphogenetic Robotics - An Evolutionary Developmental Approach to Morphological and ...
Abstract—In this paper, we report on ongoing work on SWARMORPH which is a novel distributed mecha-ni...
Swarm robotics is the collaboration of a large number of robots to accomplish a set of specified tas...
Embryonic development of multicellular organisms, also known as morphogenesis, is regarded as a robu...
The Problem: In this research, we propose to use morphogenesis and developmental biology as a source...
Outside biological and social systems, natural pattern formation is essentially “simple ” and random...
Engineers are torn between an attitude of strong design and dreams of autonomous devices. They want ...
This paper presents a simple decentralised morphology control mechanism for a swarm of self-assembli...
Self-assembling robots have the potential to undergo autonomous morphological adaptation. However, d...