Wandering cats : Attitudes and behaviors towards cat containment in Australia
- Authors: Toukhsati, Samia , Young, Emily , Bennett, Pauleen , Coleman, Grahame
- Date: 2012
- Type: Text , Journal article
- Relation: Anthrozoos Vol. 25, no. 1 (2012), p. 61-74
- Full Text: false
- Reviewed:
- Description: Cat containment is a prominent cat management issue in Australia that provokes strong, and sometimes opposing, points of view. The aim of this study was to explore beliefs and attitudes towards containment in cat owner and non-owner groups, and to examine cat containment practices in owners. A random sample of 424 Victorian residents was recruited to complete the Community Attitudes towards Companion Animals Survey by telephone interview. The results showed that, of 142 cat owners, 80% contained their cat to a property at night but only 41.2% contained their cat to a property during the day. For cat owners, beliefs about the importance of cat containment were related to concerns regarding the protection of cats from injury and the protection of native wildlife. Beliefs relating to the importance of cat containment most strongly predicted containment practices. Conversely, findings from non-owners revealed that support for containment was generally linked to concerns regarding protection for wildlife and protection of community members from harm or nuisance behaviors. These findings indicate broad support for cat containment and suggest that education relating to the advantages of suitably enriched containment to protect cats from injury would be worthwhile in regions with cat curfews in place. © ISAZ 2012.
Modelling strong and weak discontinuities with the scaled boundary finite element method through enrichment
- Authors: Jiang, Shou-yan , Du, Chengbin , Ooi, Ean
- Date: 2019
- Type: Text , Journal article
- Relation: Engineering Fracture Mechanics Vol. 222, no. (Dec 2019), p. 25
- Full Text: false
- Reviewed:
- Description: In this paper, a technique to model strong and weak discontinuities with the scaled boundary finite element method through enrichment is proposed. The main advantage of the method is that the enriched elements, in the spirit of the extended finite element method (XFEM), do not need to physically conform to the geometry of features, e.g. internal interfaces and cracks, and remeshing is unnecessary as the interfaces evolve. All the advantages of the SBFEM and the XFEM are retained. The stress singularity at the crack tip can be captured accurately and the stress intensity factors (SIFs) can be directly computed based on the singular displacement or stress at the crack tip within the framework of the SBFEM. The numerical properties and performance for the proposed method are assessed using several numerical examples. In particular, problems with discontinuities, e.g. voids, inclusions, and cracks are analysed. The results show that the accuracy and convergence rate of the new approach for solving void or inclusion problems are identical to those of the XFEM, but requires less number of degrees-of-freedom than the XFEM. For crack problems, compared with the XFEM with topological enrichment, the developed method is superior.