During his talk, Professor Barend Mons will talk about the role of semantic technologies, (under)standards and the nanopublication ecosystem in particular. He will challenge several established views in the field of the semantic web, scholarly communication, intellectual networking, science metrics, peer review and ‘data publishing’ with an emphasis on the barriers to break down in order to allow effective data exposure, sharing and integration in the Big Data era. The context of his talk will be the need for eScience approaches to ‘in silico’ knowledge discovery.
Barend Mons holds a chair in Biosemantics at the LUMC and is one of the scientific directors of NBIC. In addition he acts as a Life Sciences 'eScience integrator' in the Netherlands eScience centre. Currently, he coordinates the creation of the DTL Data programme and in that capacity he is also the scientific representative of The Netherlands in the interim board of the ELIXIR ESFRI project. Barend is also participates in Data FAIRport.
Dr James Hetherington
Dr Hetherington is a research software engineer, who combines the skills and experience of a computational scientist with those of a professional software engineer. As leader of UCL's Research Software Development team, he works with researchers to produce maintainable, usable, well-tested scientific software that will have a lasting impact. Dr Hetherington holds a PhD in Theoretical Physics.
This presentation will focus on the demand from researchers for ICT support and the shift ICT leaders need to make towards staying relevant. ICT leaders who don’t support research will become a barrier for their organisations and researchers.
Sakkie Janse van Rensburg
How the UFS embraced I.T. to enhance research over the past decade. Since the shift in the research paradigm that requires more computational analysis, eResearch has become a key research methodology at the UFS. The focus of this presentation is to point out the importance of supporting researchers with their computational requirements by looking at the research outputs. This includes looking at the publications and Masters or Doctorate degrees attained using a HPC facility. Furthermore this presentation also reflects the impact that the new (installed in November 2014) SANReN ring to hospitals already have on the UFS' clinical research.
Albert van Eck
Mr. Albert van Eck is the Director of the High Performance Computing Unit at the University of the Free State. He has been involved with HPC since 2005 and started the first POC at the UFS in 2006 with support from Mr Sakkie Janse van Rensburg. In 2007, a special interest group was formed at the UFS and is still active today. In 2008, Albert joined the SAGrid technical team to support research across SA. Since 2008, Van Eck focused on HPC and presented a number of systems administration and GNU Linux training workshops. In 2011, he left the UFS briefly to join the CHPC. In 2012, he returned to the UFS to form the HPC Unit.
The Internet and new collaborative technologies have changed the way we produce and disseminate content. Within this context seamless access to information is a key driver of scientific development. eResearch infrastructures provide the means to transfer digital objects, data and code across geographical boundaries, but closed forms of copyright management still constitute a significant legal barrier to free and open exchange. This presentation will provide a beginner’s introduction to Creative Commons licencing and highlight the affordences of open licencing in an eResearch framework.
The Research Area is a complex world to manage:
All these functionalities need to be managed by an integrated system that allows the players involved to always have the full picture of all the ongoing activities within their Institution. If an institution is only interested in managing publications (limited functionalities), there are several systems that might be used, many of them also available as open source software (the most common one being DSpace). On the contrary, if the aim of the institution is to manage the complexity of research (full functionalities), then the only option would be to use a very sophisticated CRIS (Current Research Information System) that usually requires a substantial economic investment.
Cineca, in collaboration with the Hong Kong University, started working in 2009 to fill this gap. The result of such international cooperation has been the release of an open source solution (free download available at https://github.com/Cineca/DSpace) called DSpace-CRIS: a mixed repository-CRIS platform that combines the agile OA content management provided by DSpace with additional CERIF-compliant CRIS features built on top (such as persons, organisations and projects). This means that DSpace-CRIS allows an Institution to easily collect and disseminate data and information about researchers, which results in a better promotion of their activities and an enhancement in visibility for the Institution.
Head of Research and International Affairs, she is responsible for IT projects and services for research since 2010. She has strong experience in project and program management in complex environments. She participates as an expert in the activities of several committees and serves on a number of international scientific boards. She writes and lectures on various aspects of IT management for research.
Main previous positions include being responsible for e-publishing and digital repositories services at CILEA (2003-2009), Vice Director of Libraries at the University of Insubria (2002-2003), Director of the Physics Library at the University of Milan (1996-2001), Associate at CERN Scientific Information Service, Geneva, Switzerland, (1994-1996).
She has a Masters degree in Linguistics at the University of Milan, Postgraduate Master, II level, in Information& Communication Technology Management at the University of Milan Bicocca, Diplôme de Langue de l'Alliance Française, English Certificate of Proficiency.
Andrea is a member of the release team and a long-term DSpace committee member. He has been directly involved in the development of the major functionalities as the JSPUI redesign. He works at CINECA, a registered DuraSpace Service Provider based in Italy that, among other activities, provides professional services and IT solution for the Research Management. He is the Product Manager and one of the key Architect of both CINECA’s solutions: the Open Source system (DSpace-CRIS) and the Enterprise edition (IRIS).IRIS uses DSpace as Institutional Repository and DSpace-CRIS as a dissemination module for the other
Michele is International Relations Manager at Cineca. He represents the Consortium in the Board of Directors of EUNIS (European University Information Systems Association) and he is Deputy Leader of the euroCRIS DRIS/Best Practice Task Group.
The Research Portal, as its name implies, is a gateway for University of Cape Town (UCT) researchers and academics to access facilities and systems which can aid them in their journey through the research lifecycle. As a project, the Research Portal falls under UCT’s Enterprise Content Management (ECM) strategy. The objective of the ECM strategy is to provide the UCT community with the mechanisms to store, find, and maintain a definitive version of information and to be able to access and use this, or a subset of it, in a variety of different contexts. It is this ECM linkage that led the UCT ECM team to choose tools that address both content management and the research lifecycle for early implementation in the Portal.
The UCT Researcher Portal is still in its early stages and is very much still under development. Currently, only three of the modules have been completed. These three modules are Researcher Profiles, Scholarly Outputs and Compile CV. These are the focus for this presentation. Two more modules are envisaged for the near future: My Students and My Facilities.
Yvonne Hertzog is a Senior Content Analyst/Designer in UCT’s ICTS department. She is the business analyst on the Research Portal project.
Emeritus Associate Professor Andy Duncan
Andrew Duncan retired from UCT in 2008 after 35 years as an academic (Associate Professor in Geochemistry and Geological Sciences) but with 13 of those years also spent managing some major projects at UCT. Now as a consultant to ICTS, he is the program manager for UCT’s Enterprise Content Management program.
This paper outlines how the strategic partnership between the Research Office, Libraries and ICTS is a critical, and in many ways unique, function in advancing an enterprise-wide response to the changing researcher needs in the e-Research environment. The paper considers the challenge of building new functionality across multiple service points, traditionally operating as service support silos, in an enterprise-wide organization structure able to support a user-centric approach.
As part of the journey towards a robust strategic partnership, leadership readiness within each of the distinct functions of Research Office, Libraries and ICTS was critical to the successful establishment of the e-Research Centre at UCT. The forging of the partnership depended on the willingness of the leadership to shift from a traditional service-centric (function based) to a user-centric approach at institutional level that has capability to integrate multiple service support at relevant points around the research life-cycle.
The paper deals not only with some key achievements of the strategic partnership and leadership in a uni-wide e-Research Centre but it also highlights where it can hurt across implementation, turf contestation and in finding the synergies to shape joint and separate roles and functions across distributed services to meet researcher needs. The use of the RACI chart methodology chart is explained and how it has assisted the leadership to integrate the distinct functions of the Research Office, Libraries and ICTS in a new combination of functions that emerged to support the e-Research Centre at UCT.
Gwenda Thomas, Dr Marilet Sienaert and Sakkie Janse van Rensburg
While there is a wealth of highly effective and useful mobile and web applications for supporting business and home organization, this does not extend to many useful applications for supporting scientific research and collaboration. For example, there are currently very few mobile - and web - applications available for displaying and exploring molecular structure; a primary focus of chemical research.
In this talk, I will discuss a range of related student projects that aim to design and develop effective mobile applications for visualizing the structure of carbohydrate molecules. We anticipate that effective mobile applications could be very useful for supporting research collaboration and discussion.
Associate Professor Michelle Kuttel
Michelle Kuttel is an Associate Professor in UCT’s Department of Computer Science. Her rather broad research ranges from using parallel computing methods and hardware to accelerate computationally intensive algorithms in Chemistry and Astronomy, through the development of effective supportive scientific software tools, to the design of effective visualizations for complex scientific data.
Visualisation is an effective way of teasing out trends from data, communicating with other scientists and gaining a deeper understanding of a research problem. During this talk, I will reflect on the role a visualisation facility can play in enhancing how researchers can share, manipulate and gain insight into complex data. I will also discuss the hardware and software tools that make this possible. These observations stem from research and experiences gained while utilising the Scientific Computing Research Unit's Visualisation Studio, which is part of the Informatics and Visualisation Lab in the Scientific Computing Research Unit at UCT.
Dr Chris Barnett
Chris Barnett is a Research Officer in the Scientific Computing Research Unit. His research interests lie in the fields of glycomics and visualisation. He is interested in the complexity, structure and function of glycans and their role in disease. He designs workflows, visualisations and analytics tools for exploring and interpreting glycomics datasets.
The HIVE is a state of the art 3D visualization facility within the Earth Science Department of the University of the Western Cape (UWC). This facility has been established through a reciprocal investment agreement between British Petroleum (BP) and UWC and is aimed at creating a modernised virtual environment for advanced research in academia, especially in Earth Sciences. This facility has been equipped with a variety of 3D modelling software (including Petrel®, Midland Valley Move®, Kingdom Suite®, Maptek®, Geovisionary®, etc.) to enhance seismic, reservoir, mining and structural data analysis and interpretation through immersive visualization. The stereoscopic 3D capabilities of the HIVE allows for data visualization in an extraordinary manner to further enabling data interpretation through various modeling techniques. Petroleum Geoscience teaching has been a core function of the facility, allowing users (generally honours, masters and doctoral students) to conceptualize subsurface hydrocarbon accumulations through 3D modelling of seismic and other data using relevant softwares. The need to understand subsurface environments is fundamental in locating, characterizing and evaluating potential oil and gas reservoirs, making 3D visualization an invaluable implement in geoscience education.
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The MeerKAT radio telescope, currently being built in the Karoo, will be the largest radio interferometer in the southern hemisphere and among the most sensitive radio telescopes in the world prior to the Square Kilometre Array coming online. There will be 10 large astronomical surveys done with the MeerKAT, focussing on a range of topics from galaxy evolution to pulsars. One of the primary contaminants of radio astronomy data and a challenge for the upcoming surveys is radio frequency interference (RFI) which comes from human-made sources both on the earth and from orbiting satellites. These RFI contaminant signals need to be identified and removed from the telescope data before science analysis can take place.
I will discuss some student projects we have done in collaboration between UCT Astronomy and UCT Computer Science to measure, identify and visualize RFI in radio data from the MeerKAT site.
Sarah Blyth is a lecturer at UCT in the Department of Astronomy. She is one of the co-Principal Investigators of the upcoming MeerKAT Large Survey, LADUMA (Looking At the Distant Universe with the MeerKAT Array), which will investigate neutral hydrogen in galaxies as a function of cosmic time as a means to study galaxy evolution. She is also interested in the links between Astronomy and Computer Science and the development of algorithms and software to solve problems in Astronomy.
Science and technology are advancing at a tremendous pace in every facet of our lives. Advances in computing capability, connectivity, ubiquitous sensing, and ambient intelligence promise huge opportunities in almost every domain. The resulting data deluge, however, presents many technical and social challenges that must be overcome to realise the full potential for data science and data-driven innovation. In this talk we describe how computing at scale is enabling data collection, management, visualisation and modelling from astronomy and environmental science, to healthcare and humanities research. We will explore how cloud computing is evolving, and Microsoft Azure is helping to accelerate knowledge discovery and support decision-making for business and society. See http://www.azure4research.com.
Dr Kenji Takeda
Dr Kenji Takeda is Solutions Architect and Technical Manager for Microsoft Research. His current focus is helping researchers take best advantage of cloud computing, including through big data and data science approaches, including the Azure for Research programme – www.azure4research.com. He has extensive experience in Cloud Computing, High Performance and High Productivity Computing, Data-intensive Science, Scientific Workflows, Scholarly Communication, Engineering and Educational Outreach. He has a passion for developing novel computational approaches to tackle fundamental and applied problems in science and engineering.
The talk will introduce the Center for High Performance Computing, and the role it plays within the eResearch area. In this talk, the various scientific and engineering domains that require HPC will be outlined, with focus on the main application areas from South African research community. We will further discuss training and community programs aimed at advancing HPC in South Africa. As part of the growth of HPC in South Africa and the continent, some future plans on HPC planning will also be discussed.
Dr Werner Janse van Rensburg
Dr. Werner Janse van Rensburg is a specialist in Computational Chemistry. He is the Science and Engineering Applications Manager at the Center for High Performance Computing. Prior to this position, Dr. van Rensburg was Manager of Computational Group at SASOL Technologies.
Genomics research has moved from the single gene to whole genome focus and development of new technologies is resulting in the ever increasing size of genomic data. This comes with significant challenges which are new to many wet-lab scientists. Bioinformatics and Computational Biology are becoming increasingly significant components of large genomics projects, and although relatively cheap compared to high throughput experiments, they require unique skills and access to large computing infrastructures. The Computational Biology group at UCT has a strong research focus on infectious diseases, such as tuberculosis as well as host genetics, using systems biology and statistical genetics approaches. We are also involved in developing bioinformatics capacity in Africa to enable researchers to analyse high-throughput genomic data to answer fundamental questions about the genetic or molecular basis of diseases. CBIO heads H3ABioNet, a Pan African bioinformatics network for H3Africa, which includes partners in over 30 African institutions, and is helping to build capacity for large-scale data analysis. I will describe how we are working with African researchers to achieve this goal, where relevant, providing specific examples from my own research on the bioinformatics of infectious diseases.
Professor Nicola Mulder
Professor Mulder heads the Computational Biology Group (CBIO) at the University of Cape Town (UCT) (http://www.cbio.uct.ac.za). She graduated with a Bachelor degree, cum laude, in Chemistry and Microbiology, and a first class Honours degree in Microbiology, followed by a PhD in Medical Microbiology. She spent 8 years at the European Bioinformatics Institute (EBI) in Cambridge, where she was a Team Leader, responsible for development of bioinformatics resources for the scientific community. At UCT, Prof Mulder’s research focusses on the bioinformatics of infectious diseases, including pathogen and host genomics and biological networks, human variation and disease association studies. Her group also does training and provides bioinformatics support to researchers. She leads a large NIH-funded consortium, H3ABioNet, to build a Pan-African Bioinformatics network for H3Africa. H3ABioNet is a network of over 30 institutions in 15 African countries and 2 in the USA, which aims to build bioinformatics capacity for genomics research on the continent and develop the infrastructure for managing large-scale genomics data from H3Africa projects.