Geoff Love scite author profile

Geoff Love

5Publications

122Citation Statements Received

26Citation Statements Given

How they've been cited

131

122

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Affiliations

BH Consulting (Ireland), Duke University, Australian Bureau of Agricultural and Resource Economics

Publications

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Improved implicit integrators for transient impact problems—geometric admissibility within the conserving framework

Laursen

Love

2001

Numerical Meth Engineering

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SUMMARYThe value of energy and momentum conserving algorithms has been well established for the analysis of highly non-linear systems, including those characterized by the nonsmooth non-linearities of an impact event. This work proposes an improved integration scheme for frictionless dynamic contact, seeking to preserve the stability properties of exact energy and momentum conservation without the heretofore unavoidable compromise of violating geometric admissibility as established by the contact constraints. The physically motivated introduction of a discrete contact velocity provides an algorithmic framework that ensures exact conservation locally while remaining independent of the choice of constraint treatment, thus making full conservation equally possible in conjunction with a penalty regularization as with an exact Lagrange multiplier enforcement. The discrete velocity e ects are incorporated as a postconvergence update to the system velocities, and thus have no direct e ect on the non-linear solution of the displacement equilibrium equation. The result is a robust implicit algorithmic treatment of dynamic frictionless impact, appropriate for large deformations and fully conservative for a range of geometric constraints.

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Improved implicit integrators for transient impact problems––dynamic frictional dissipation within an admissible conserving framework

Love

Laursen

2003

Computer Methods in Applied Mechanics and Engineering

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Cost Comparisons of Different Insect Control Measures

Love

1984

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FACTS Controller Integration and Design Studies

Andersen¹,

Woodford

Love³

2020

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FACTS Planning Studies

Andersen¹,

Woodford²,

Love³

2020

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Geoff Love

Improved implicit integrators for transient impact problems—geometric admissibility within the conserving framework

Improved implicit integrators for transient impact problems––dynamic frictional dissipation within an admissible conserving framework

Cost Comparisons of Different Insect Control Measures

FACTS Controller Integration and Design Studies

FACTS Planning Studies

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