Some properties of hereditory CCC spaces

Brod, Miriam

January 1989

No description available.

510

Non-strandable space[Topology]

Curved spaces admitting solutions to twistor equations

Jeffryes, B. P.

January 1984

No description available.

510

Spherical topology

Homology representations of braid groups

Lawrence, Ruth Jayne

January 1989

No description available.

510

Topology of Hecke algebra

Surface reconstruction from imaging sequences : texture of apparent contour constraints

Cross, G. M. T.

January 2000

No description available.

621.3994

Topology; Camera; Projection

Cohomology of compactifications of moduli spaces of stable bundles over a Riemann surface

Hatter, Luke

January 1997

No description available.

510

Algebraic topology

Equivariant Lusternik-Schnirelmann category

Shaw, Edmund

January 1991

No description available.

510

Algebraic topology

Towers, modules and Moore spaces in proper homotopy theory

Beattie, Malcolm I. C.

January 1993

No description available.

510

Algebraic topology

Monopoles on 3-manifolds

McAllister, Ian

January 1995

No description available.

510

Topology; Gluing process

Object tracking using wireless sensor networks

Salatas, Vlasios.

09 1900

Wireless sensor network (WSN) is a promising new technology. It could be a way to achieve ubiquitous computing and embedded Internet. WSNs are an efficient solution for applications that involve deep monitoring of a deployment environment. The objective of this thesis is to explore the use of WSNs for object tracking and motion estimation. It introduces the WSN technology, their theoretical characteristics, system constraints, WSN architectures, deployment topologies and standards. The object-tracking system that this thesis introduces, demonstrates a real-world application that uses a WSN to track objects and communicate their information. It is an event-driven application implemented in Java, built on top of the Crossbow MSP 410 wireless sensor system. The algorithm process the data returned from the WSN detection signals and tracks the object's motion. Deployment scenarios are proposed that demonstrate suitable node topologies for the system. The evaluation of the object-tracking system is performed by conducting a number of indoor and outdoor experiments.

Computer science

Topology

High-frequency mapping of the IPv6 Internet using Yarrp

Gaston, Eric W.

03 1900

Approved for public release; distribution is unlimited / Both the number of hosts using Internet Protocol version 6 (IPv6), and the volume of IPv6 traffic, has increased exponentially since 2012.With this adoption, the IPv6 routed infrastructure becomes an increasingly important component of global critical infrastructure and network policy. Unfortunately, the tools and techniques used to perform active network topology discovery were designed for Internet Protocol version 4 (IPv4), leading to a potentially opaque view of the IPv6 Internet. In this thesis, we extend nascent work on stateless high-speed IPv4 active topology probing to develop a new IPv6 traceroute method Yelling At Random Routers Progressively version 6 (Yarrp6). Yarrp6 randomly permutes the set of IPv6 targets and hop counts to distribute load, thereby helping to avoid IPv6 response rate limiting. Further, we encode state in the IPv6 payload to permit Yarrp6 to both match responses with probes and use different probe transport protocols. Via active experimentation on the public IPv6 Internet, we compare the results obtained from Yarrp6 against the current state-of-the-art IPv6 topology mapping tool. We show that Yarrp6 can discover topology at more than an order of magnitude faster than previously possible. Finally, we conduct a study of the effect of transport layer protocol on forward Internet Protocol (IP) path inference to determine what protocol is best used for active IPv6 topology discovery. / Outstanding Thesis / Information Systems Technician First Class, United States Navy

IPv6

active topology mapping