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15 results on '"Joseph, Therese"'

1. Matched Filtering based LiDAR Place Recognition for Urban and Natural Environments

Author

Joseph, Therese, Fischer, Tobias, and Milford, Michael

Subjects
Computer Science - Robotics
Abstract

Place recognition is an important task within autonomous navigation, involving the re-identification of previously visited locations from an initial traverse. Unlike visual place recognition (VPR), LiDAR place recognition (LPR) is tolerant to changes in lighting, seasons, and textures, leading to high performance on benchmark datasets from structured urban environments. However, there is a growing need for methods that can operate in diverse environments with high performance and minimal training. In this paper, we propose a handcrafted matching strategy that performs roto-translation invariant place recognition and relative pose estimation for both urban and unstructured natural environments. Our approach constructs Birds Eye View (BEV) global descriptors and employs a two-stage search using matched filtering -- a signal processing technique for detecting known signals amidst noise. Extensive testing on the NCLT, Oxford Radar, and WildPlaces datasets consistently demonstrates state-of-the-art (SoTA) performance across place recognition and relative pose estimation metrics, with up to 15% higher recall than previous SoTA.

Published
2024

2. Trajectory Tracking via Multiscale Continuous Attractor Networks

Author

Joseph, Therese, Fischer, Tobias, and Milford, Michael

Subjects
Computer Science - Robotics
Abstract

Animals and insects showcase remarkably robust and adept navigational abilities, up to literally circumnavigating the globe. Primary progress in robotics inspired by these natural systems has occurred in two areas: highly theoretical computational neuroscience models, and handcrafted systems like RatSLAM and NeuroSLAM. In this research, we present work bridging the gap between the two, in the form of Multiscale Continuous Attractor Networks (MCAN), that combine the multiscale parallel spatial neural networks of the previous theoretical models with the real-world robustness of the robot-targeted systems, to enable trajectory tracking over large velocity ranges. To overcome the limitations of the reliance of previous systems on hand-tuned parameters, we present a genetic algorithm-based approach for automated tuning of these networks, substantially improving their usability. To provide challenging navigational scale ranges, we open source a flexible city-scale navigation simulator that adapts to any street network, enabling high throughput experimentation. In extensive experiments using the city-scale navigation environment and Kitti, we show that the system is capable of stable dead reckoning over a wide range of velocities and environmental scales, where a single-scale approach fails., Comment: 8 Pages, 8 Figures, accepted at IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS 2023)

Published
2023

3. A Comprehensive Dataset of Grains for Granular Jamming in Soft Robotics: Grip Strength and Shock Absorption

Author

Howard, David, O'Connor, Jack, Letchford, Jordan, Joseph, Therese, Lin, Sophia, Baldwin, Sarah, and Delaney, Gary

Subjects
Computer Science - Robotics, Condensed Matter - Soft Condensed Matter
Abstract

We test grip strength and shock absorption properties of various granular material in granular jamming robotic components. The granular material comprises a range of natural, manufactured, and 3D printed material encompassing a wide range of shapes, sizes, and Shore hardness. Two main experiments are considered, both representing compelling use cases for granular jamming in soft robotics. The first experiment measures grip strength (retention force measured in Newtons) when we fill a latex balloon with the chosen grain type and use it as a granular jamming gripper to pick up a range of test objects. The second experiment measures shock absorption properties recorded by an Inertial Measurement Unit which is suspended in an envelope of granular material and dropped from a set height. Our results highlight a range of shape, size and softness effects, including that grain deformability is a key determinant of grip strength, and interestingly, that larger grain sizes in 3D printed grains create better shock absorbing materials.

Published
2022

4. The Jamming Donut: A Free-Space Gripper based on Granular Jamming

Author

Joseph, Therese, Baldwin, Sarah, Guan, Lillian, Brett, James, and Howard, David

Subjects
Computer Science - Robotics, Condensed Matter - Soft Condensed Matter
Abstract

Fruit harvesting has recently experienced a shift towards soft grippers that possess compliance, adaptability, and delicacy. In this context, pneumatic grippers are popular, due to provision of high deformability and compliance, however they typically possess limited grip strength. Jamming possesses strong grip capability, however has limited deformability and often requires the object to be pushed onto a surface to attain a grip. This paper describes a hybrid gripper combining pneumatics (for deformation) and jamming (for grip strength). Our gripper utilises a torus (donut) structure with two chambers controlled by pneumatic and vacuum pressure respectively, to conform around a target object. The gripper displays good adaptability, exploiting pneumatics to mould to the shape of the target object where jamming can be successfully harnessed to grip. The main contribution of the paper is design, fabrication, and characterisation of the first hybrid gripper that can use granular jamming in free space, achieving significantly larger retention forces compared to pure pneumatics. We test our gripper on a range of different sizes and shapes, as well as picking a broad range of real fruit.

Published
2022

5. Getting a Grip: in Materio Evolution of Membrane Morphology for Soft Robotic Jamming Grippers

Author

Howard, David, O'Connor, Jack, Letchford, Jordan, Brett, James, Joseph, Therese, Lin, Sophia, Furby, Daniel, and Delaney, Gary W.

Subjects
Computer Science - Robotics
Abstract

The application of granular jamming in soft robotics is a recent and promising new technology offer exciting possibilities for creating higher performance robotic devices. Granular jamming is achieved via the application of a vacuum pressure inside a membrane containing particulate matter, and is particularly interesting from a design perspective, as a myriad of design parameters can potentially be exploited to induce a diverse variety of useful behaviours. To date, the effect of variables such as grain shape and size, as well as membrane material, have been studied as a means of inducing bespoke gripping performance, however the other main contributing factor, membrane morphology, has not been studied due to its particular complexities in both accurate modelling and fabrication. This research presents the first study that optimises membrane morphology for granular jamming grippers, combining multi-material 3D printing and an evolutionary algorithm to search through a varied morphology design space in materio. Entire generations are printed in a single run and gripper retention force is tested and used as a fitness measure. Our approach is relatively scalable, circumvents the need for modelling, and guarantees the real-world performance of the grippers considered. Results show that membrane morphology is a key determinant of gripper performance. Common high performance designs are seen to optimise all three of the main identified mechanisms by which granular grippers generate grip force, are significantly different from a standard gripper morphology, and generalise well across a range of test objects., Comment: 8 pages

Published
2021

11. Women in Igbo Life and Thought

Author

Joseph Therese Agbasiere and Joseph Therese Agbasiere

Subjects
Women, Igbo, Philosophy, Igbo
Abstract

A member of the Igbo tribe of Nigeria who became a nun and trained as an anthropologist, Joseph Therese Agbasiere had a unique opportunity to transcend some of the preconceptions and subjectivities inevitable when an'outsider'studies a native society.Her richly detailed ethnography examines kinship practices, marriage customs, and women's responsibilities in the house and the community, establishing the tremendous influence that Igbo women wield in public affairs. Igbo ideas about the universe, the person and spiritual considerations are also discussed and shown to be primarily centred around women.This fascinating work is a testament to the combination of personal insight and academic detachment which the author brought to her study of Igbo women before her death in 1998. It will be a valuable resource for students and scholars in anthropology, African studies and women's studies.

Published
2015

13. Multiple e-pharmacophore modeling, 3D-QSAR, and high-throughput virtual screening of hepatitis C virus NS5B polymerase inhibitors

Author

Patrisha Joseph Therese, Perumal Yogeeswari, Neerja Kaushik-Basu, Amartya Basu, Sridevi Kondepudi, Dinesh Manvar, Dharmaranjan Sriram, and Madhu Babu Battu

Subjects
Quantitative structure–activity relationship, Protein Conformation, viruses, General Chemical Engineering, In silico, Drug Evaluation, Preclinical, Quantitative Structure-Activity Relationship, Computational biology, Hepacivirus, Library and Information Sciences, Biology, Viral Nonstructural Proteins, Molecular Docking Simulation, Antiviral Agents, Cell Line, chemistry.chemical_compound, User-Computer Interface, Humans, Enzyme Inhibitors, NS5B, Virtual screening, Drug discovery, virus diseases, General Chemistry, Combinatorial chemistry, digestive system diseases, Computer Science Applications, High-Throughput Screening Assays, chemistry, Docking (molecular), Thermodynamics, Pharmacophore
Abstract

The hepatitis C virus (HCV) NS5B RNA-dependent RNA polymerase (RdRP) is a crucial and unique component of the HCV RNA replication machinery and a validated target for drug discovery. Multiple crystal structures of NS5B inhibitor complexes have facilitated the identification of novel compound scaffolds through in silico analysis. With the goal of discovering new NS5B inhibitor leads, HCV NS5B crystal structures bound with inhibitors in the palm and thumb allosteric pockets in combination with ligands with known inhibitory potential were explored for a comparative pharmacophore analyses. The energy-based and 3D-QSAR-based pharmacophore models were validated using enrichment analysis, and the six models thus developed were employed for high-throughput virtual screening and docking to identify nonpeptidic leads. The hits derived at each stage were analyzed for diversity based on the six pharmacophore models, followed by molecular docking and filtering based on their interaction with amino acids in the NS5B allosteric pocket and 3D-QSAR predictions. The resulting 10 hits displaying diverse scaffold were then screened employing biochemical and cell-based NS5B and anti-HCV inhibition assays. Of these, two molecules H-5 and H-6 were the most promising, exhibiting IC50 values of 28.8 and 47.3 μM against NS5B polymerase and anti-HCV inhibition of 96% and 86% at 50 μM, respectively. The identified leads comprised of benzimidazole (H-5) and pyridine (H-6) scaffolds thus constitute prototypical molecules for further optimization and development as NS5B inhibitors.

Published
2014

15. Women in Igbo Life and Thought

Author

Rachel R. Reynolds and Joseph Therese Agbasiere

Subjects
Cultural Studies, History, Sociology and Political Science, Anthropology, Development, Demography
Published
2001

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