The following pages link to A guide to membrane computing. (Q1853480):
Displaying 50 items.
- Using bigraphs to model topological graphs embedded in orientable surfaces (Q383361) (← links)
- P systems with proteins on membranes characterize PSPACE (Q388151) (← links)
- On languages generated by spiking neural P systems with weights (Q506742) (← links)
- Weight optimization for case-based reasoning using membrane computing (Q508668) (← links)
- On aggregation in multiset-based self-assembly of graphs (Q537813) (← links)
- An empirical evaluation of P system testing techniques (Q537817) (← links)
- On the computational complexity of membrane systems (Q596128) (← links)
- P systems and computational algebraic topology (Q630756) (← links)
- P systems with symport/antiport simulating counter automata (Q707498) (← links)
- Deterministic catalytic systems are not universal (Q860859) (← links)
- Three ``quantum'' algorithms to solve 3-SAT (Q872207) (← links)
- Compositional semantics and behavioral equivalences for P systems (Q924685) (← links)
- Compositional asynchronous membrane systems (Q952195) (← links)
- How a membrane agent buys goods in a membrane store (Q952203) (← links)
- Decision problems in membrane systems with peripheral proteins, transport and evolution (Q953538) (← links)
- Processes of membrane systems with promoters and inhibitors (Q953547) (← links)
- A quick introduction to membrane computing (Q987956) (← links)
- Compositional semantics of spiking neural P systems (Q987958) (← links)
- Computation with finite stochastic chemical reaction networks (Q1035715) (← links)
- Uniform solutions to SAT and 3-SAT by spiking neural P systems with pre-computed resources (Q1035718) (← links)
- Membrane systems with promoters/inhibitors (Q1403327) (← links)
- Computing with membranes (Q1582013) (← links)
- An introduction to \(\mathrm{cP}\) systems (Q1709914) (← links)
- A Prolog simulator for deterministic P systems with active membranes (Q1762939) (← links)
- On membrane hierarchy in P systems (Q1779299) (← links)
- Topics in the theory of DNA computing. (Q1853473) (← links)
- Membrane computing. An introduction. (Q1872776) (← links)
- Breaking DES using P systems. (Q1874407) (← links)
- Catalytic P systems, semilinear sets, and vector addition systems (Q1884955) (← links)
- Membrane computing with water (Q1982966) (← links)
- Simulating counting oracles with cooperation (Q1982984) (← links)
- P systems with limited number of objects (Q1982995) (← links)
- Memory associated with membranes systems (Q1983012) (← links)
- Depth-two P systems can simulate Turing machines with \textbf{NP} oracles (Q2077403) (← links)
- Synthesising elementary net systems with localities (Q2077411) (← links)
- P systems with protein rules (Q2137149) (← links)
- Monodirectional P systems (Q2311264) (← links)
- A multi-objective membrane algorithm guided by the skin membrane (Q2311270) (← links)
- Theory of tailor automata (Q2315015) (← links)
- Cell-like spiking neural P systems with evolution rules (Q2318287) (← links)
- P systems with mobile membranes (Q2493231) (← links)
- Characterizations of context-sensitive languages and other language classes in terms of symport/antiport P systems (Q2503275) (← links)
- On determinism versus nondeterminism in P systems (Q2575077) (← links)
- A fast \(P\) system for finding a balanced 2-partition (Q2576610) (← links)
- A proof theoretic view of spatial and temporal dependencies in biochemical systems (Q2628774) (← links)
- Membrane system models for super-Turing paradigms (Q2629934) (← links)
- A Petri net model for membrane systems with dynamic structure (Q2655493) (← links)
- Spatially localised membrane systems (Q2805455) (← links)
- Membrane systems with peripheral proteins: transport and evolution (Q2864195) (← links)
- Computing by floating strings (Q2864199) (← links)
