Your search keyword '"Pfeifer, Rolf"' showing total 4 results

1. Automated physiological recovery of avocado plants for plant-based adaptive machines.

Author

Damian, Dana D, Miyashita, Shuhei, Aoyama, Atsushi, Cadosch, Dominique, Huang, Po-Ting, Ammann, Michael, and Pfeifer, Rolf

Subjects

BIOLOGICAL systems, AVOCADO, ROBOTICS research, CYBERNETICS research, PLANT-water relationships, PLANT diversity

Abstract

Interfacing robots with real biological systems is a potential approach to realizing truly adaptive machines, which is a long-standing engineering challenge. Although plants are widely spread and versatile, little attention has been given to creating cybernetic systems incorporating plants. Producing such systems requires two main steps: the acquisition and interpretation of biological signals, and issuing the appropriate stimulation signals for controlling the physiological response of the biological part. We investigate an automated physiological recovery of young avocado plants by realizing a closed interaction loop between the avocado plant and a water-control device. The study considers the two aforementioned steps by reading out postural cues (leaf inclination) and electrophysiological (biopotential) signals from the plant, and controlling the water resource adaptive to the drought condition of an avocado plant. Analysis of the two signals reveals time-frequency patterns of increased power and global synchronization in the narrow bands when water is available, and local synchronization in the broad bands for water shortage. The results indicate the feasibility of interface technologies between plants and machines, and provide preliminary support for achieving adaptive plant-based ‘machines’ based on plants’ large and robust physiological spectrum and machines’ control scheme diversity. We further discuss fundamental impediments hindering the use of living organisms like plants for artificial systems. [ABSTRACT FROM PUBLISHER]

Published

2014

2. Attributes of two-dimensional magnetic self-assembly.

Author

Miyashita, Shuhei and Pfeifer, Rolf

Subjects

*MAGNETISM, *MOLECULAR self-assembly, *STOCHASTIC analysis, *STOCHASTIC processes, *MORPHOGENESIS

Abstract

Self-assembly is a phenomenon broadly observed in nature where a vast number of various molecules spontaneously synthesize complex structures. In this article, prompted by the need for the realization of highly autonomous self-assembly systems that employ magnetism as a driving force, we discuss fundamental issues associated with magnetically driven self-assembly systems. We first introduce some examples from our case studies, in which the models all subscribe to a distributed approach, and thus lack central control. Then we categorize them by their type of magnetic attachment. The issues discussed include several fundamental properties, such as the effect of morphology, stochasticity, the difference between two-dimensional models and three-dimensional models, emergence, allostericity, and parallelism. The conclusions obtained support our stance that the appropriate morphology lightens the control cost for the assembly, providing primal but engaging instances of magnetic self-assembly systems that warrant further study. [ABSTRACT FROM PUBLISHER]

Published

2012

3. An autonomous agent navigating with a polarized light compass.

Author

Lambrinos, Dimitrios, Maris, Marinus, Kobayashi, Hiroshi, Pfeifer, Rolf, Labhart, Thomas, and Wehner, Rudiger

Subjects

ADAPTABILITY (Personality), INSECTS

Abstract

Presents information relating to adaptive behavior, providing background details on the neurobiology of insect polarization vision. Description of a hardware implementation of polarization-sensitive neurons; Neural basis of polarization vision in insects; Processing of a polarized light in the insect nervous system.

Published

1997

4. Let Animats Live!

Author

Hoffmann, Matej and Pfeifer, Rolf

Subjects

*BIOLOGICAL models, *ANIMAL behavior, *MODELING (Sculpture), *ARTIFICIAL life

Abstract

The author comments on the study by researcher Barbara Webb on the effectiveness of building models of existing animals rather than building ad hoc artificial creature. He agrees on the vitalness of an animat validation and proposes alternative validation criteria to guide comparison with an animal. He opposes the idea regarding the immunity of animats to criticisms of their validity as the only apparent advantage of their use and stresses that animats are of use for biologically relevant study.

Published

2009