Symmetrized topological complexity
From MaRDI portal
Publication:4968733
DOI10.1142/S1793525319500183zbMath1418.55014arXiv1703.07142MaRDI QIDQ4968733
Publication date: 9 July 2019
Published in: Journal of Topology and Analysis (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/1703.07142
Equivariant fiber spaces and bundles in algebraic topology (55R91) Equivariant homotopy theory in algebraic topology (55P91) Artificial intelligence for robotics (68T40) Classical topics in algebraic topology (55M99) Symmetric products and cyclic products in algebraic topology (55S15) Sectioning fiber spaces and bundles in algebraic topology (55S40)
Related Items (3)
Bidirectional sequential motion planning ⋮ Symmetric Bi-Skew Maps and Symmetrized Motion Planning in Projective Spaces ⋮ Equivariant dimensions of groups with operators
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Erratum to ``Topological complexity is a fibrewise L-S category [Topology Appl. 157, No 1, 10--21 (2010)]
- Higher topological complexity and its symmetrization
- Cohomology mod \(p\) of the \(p\)-fold symmetric products of spheres
- Symmetric topological complexity of projective and Lens spaces
- Topological complexity is a fibrewise L-S category
- Transformation groups and algebraic \(K\)-theory
- On category, in the sense of Lusternik-Schnirelmann
- Topological complexity of motion planning
- Instabilities of robot motion
- Equivariant topological complexity
- On higher analogs of topological complexity
- The symmetrized topological complexity of the circle
- Relative category and monoidal topological complexity
- Equivariant cohomology theories
- Topological complexity of wedges and covering maps
- A note on trivial fibrations
- BREDON-ILLMAN COHOMOLOGY WITH LOCAL COEFFICIENTS
- Symmetric Bi-Skew Maps and Symmetrized Motion Planning in Projective Spaces
- Note on Cofibrations.
- Equivariant cohomology theories
- The genus of a fiber space
This page was built for publication: Symmetrized topological complexity
