Navigating complex labyrinths: optimal paths from chemical waves.
about
Belousov-Zhabotinsky autonomic hydrogel composites: Regulating waves via asymmetry.An inexpensive programmable illumination microscope with active feedback.On Emulation of Flueric Devices in Excitable Chemical Medium.Chemical morphogenesis: recent experimental advances in reaction-diffusion system design and controlCarbon nanotube-liposome supramolecular nanotrains for intelligent molecular-transport systems.Shooting from the hip: spatial control of signal release by intracellular waves.Reaction diffusion Voronoi diagrams: from sensors data to computing.Neocortical axon arbors trade-off material and conduction delay conservation.Predicting complex biology with simple chemistryLaser Spot Detection Based on Reaction Diffusion.Geometry sensing by self-organized protein patterns.Fast escape of a quantum walker from an integrated photonic mazeHeterotic computing: past, present and future.Chemical reaction-diffusion implementation of finding the shortest paths in a labyrinth.A systems perspective to digital structures in molecular analysis.Time-dependent wave selection for information processing in excitable media.Towards heterotic computing with droplets in a fully automated droplet-maker platform.Redox-mediated quorum sensing in plantsSpatiotemporal dynamics of networks of excitable nodes.Onset of unidirectional pulse propagation in an excitable medium with asymmetric heterogeneity.Multi-bit binary decoder based on Belousov-Zhabotinsky reaction.Cancer classification with a network of chemical oscillators.Achilles' heel of a traveling pulse subject to a local external stimulus.Current reinforcement model reproduces center-in-center vein trajectory of Physarum polycephalum.Towards unconventional computing through simulated evolution: control of nonlinear media by a learning classifier system.Chemical computing with reaction-diffusion processes.Binary full adder, made of fusion gates, in a subexcitable Belousov-Zhabotinsky system.Information coding with frequency of oscillations in Belousov-Zhabotinsky encapsulated disks.Proportional-integral control of propagating wave segments in excitable media.Logical and arithmetic circuits in Belousov-Zhabotinsky encapsulated disks.Bubbles navigating through networks of microchannels.Dynamic control and information processing in the Belousov-Zhabotinsky reaction using a coevolutionary algorithm.Synchronizing spatiotemporal chaos.Information theory, evolutionary computation, and Dembski’s “complex specified information”Chemical robotics — chemotactic drug carriers
P2860
Q27332461-FA982557-0258-4E10-889F-0ADE4388BDF1Q27346274-D2C4EA95-4FB3-4391-B968-D58F442BF689Q28555150-B418B3F6-7B82-4162-B5C3-194BB7438F2DQ30514264-F0C234C0-F161-4D97-AC4F-317987461B91Q30528954-3EA89E82-9C1B-43BB-88B9-3D8376E47A76Q30531514-E4C1B853-E96D-4AF3-9678-733ABE18A96DQ30963727-013F0B34-EE50-4F5D-9761-7E0E02B2B309Q33543182-DD13D61D-FC66-45A7-AFFB-CDB66EEB2EDEQ35127424-845DC5DF-BBA6-4362-9AB9-09FCD4ED28FFQ35944537-16327399-8FC0-4890-A497-210F69D1192AQ36280130-CA8736E6-FA52-4178-BD24-4AB7F391B967Q36974974-41A402A6-0995-41ED-9523-213FD35CA5F1Q38528773-008A6CD2-92B3-4896-92BB-059C74FC8653Q39564247-7B11D5F3-8FDF-4F8F-AAB5-8BA4AFCCF7E8Q39780563-82415D68-28F3-4C20-B88A-3E4563655354Q40064490-58B7C066-C5F0-4C46-BE8B-C2A2EECF12C0Q40832032-FD14A2B4-E368-4B5F-BE5E-92BB811AA4A0Q41144556-4AA7F898-4AD2-4F9D-B307-F8EF76115430Q44918889-026765B1-0A4F-4216-A3D3-58B32734DA97Q45973233-C65EEF14-C236-4242-8C7F-BDED3D6CF778Q46542245-6591F1C7-4AF0-43B1-BAE3-EAC7D49EF2EDQ47639296-2FAB5781-9D8A-4BC5-9F22-7C79CDAB07EDQ47765384-7B36CA8A-2F5E-452A-ABF3-733AA838CC0EQ47766689-B0F9CFB0-6405-4F59-9BDE-A0068A171807Q47855887-3048516A-C42A-4F2D-A908-BA165BEBDB2EQ48127183-7B962DB2-EAAD-4ECD-94DE-F709C19876D1Q50792781-BAACAA58-20B0-4E65-A962-60854ABF5341Q50848736-32E3F055-4428-4DE3-BEA5-AAD39AF75849Q50874573-CB07E0EB-2677-4038-886D-CFDD0BE8EB53Q51469625-A80FC546-5458-4FE2-96DE-3954725B70C8Q51545283-77EEB246-1739-466B-ABF9-DE45061C0924Q51861613-22A712A9-0D3A-4DD5-A5D6-C6E7D48555A8Q53861336-8AC78752-4E43-4050-850F-5E46785B0041Q55871154-28BEBC42-8444-4D73-921A-CB4F2822DE16Q56041128-39F7D0A6-25DA-4B41-8A3E-6C6DE45B794A
P2860
Navigating complex labyrinths: optimal paths from chemical waves.
description
1995 nî lūn-bûn
@nan
1995年の論文
@ja
1995年学术文章
@wuu
1995年学术文章
@zh
1995年学术文章
@zh-cn
1995年学术文章
@zh-hans
1995年学术文章
@zh-my
1995年学术文章
@zh-sg
1995年學術文章
@yue
1995年學術文章
@zh-hant
name
Navigating complex labyrinths: optimal paths from chemical waves.
@en
Navigating complex labyrinths: optimal paths from chemical waves.
@nl
type
label
Navigating complex labyrinths: optimal paths from chemical waves.
@en
Navigating complex labyrinths: optimal paths from chemical waves.
@nl
prefLabel
Navigating complex labyrinths: optimal paths from chemical waves.
@en
Navigating complex labyrinths: optimal paths from chemical waves.
@nl
P2860
P1433
P1476
Navigating complex labyrinths: optimal paths from chemical waves
@en
P2093
Steinbock O
P2860
P304
P356
10.1126/SCIENCE.267.5199.868
P407
P577
1995-02-01T00:00:00Z