Article: Deconstructing Bollywood

January 1, 2011 § Leave a comment

Author: Srinivas Chemboli, Postgraduate Student, School of Computer Science, The Australian National University

Published: Wednesday, 22 July 2009

Full story at: http://asiapacific.anu.edu.au/blogs/southasiamasala/2009/07/22/deconstructing-bollywood/

Colourful dances, swirling chiffons and over the top emotions – images conjured up at the mere mention of Bollywood, India’s entertainment capital in ‘maximum city’ Mumbai. But it’s not all song and play in the land of dreams and aspirations.Filmmaking in Bollywood is a serious and often heart-breaking affair, replete with drama and high jinks. What every producer ultimately seeks is the holy grail of the local film industry: the recipe for a Bollywood Blockbuster.

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This blog entry is licensed under a Creative Commons Attribution-Noncommercial-No Derivative Works 3.0 Unported License.

Workflow for creating a chat activity in Moodle

July 19, 2010 § Leave a comment

  1. Turn editing on for your Moodle course site.
    Turn editing on
  2. Select Chat from the Add and activity… drop-down in the desired topic area.
    Add chat activity
  3. Enter the Name and Introduction text for the chat room. Set the time of the chat and access permissions and click Save and display.
    Add chat details
  4. The newly created chat is now displayed.
    New chat

 

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This blog entry is licensed under a Creative Commons Attribution-Noncommercial-No Derivative Works 3.0 Unported License.

Omnispective Analysis and Reasoning: An Epistemic Approach to Scientific Workflows

February 20, 2010 § Leave a comment

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Speaker: Srinivas Chemboli, Postgraduate Student, School of Computer Science (SoCS, ANU)

Date: Thursday, 25 February 2010

Time: 4:00 PM – 5:00 PM
Venue: CSIT Seminar Room, N101, CSIT Building, Building (108), North Road, ANU (campus map)

Website: Seminars @ CECS

Enquiries: Dr Malcolm Newey

Scientific workflows are used to connect together different data sources, components and processes to support research. These interacting components and processes are usually developed independently and may not be directly compatible, requiring considerable effort to integrate them. The execution-centric and implementation-focused nature of existing workflow management methodologies forces scientists to work at the low level of workflow orchestration and implementation. This makes it difficult and time-consuming to verify the provenance of and reuse existing workflows in a new context.

Omnispective Analysis and Reasoning lifts the process of scientific workflow management to a higher level of abstraction in order to support the effective capture and reuse of concepts and ideas (intellectual effort). The research tackles workflow context, provenance and agility at the concept, model and execution levels of scientific workflow management.

Improved support for these concerns will make it easier to rapidly form and evaluate research hypotheses. This will greatly enhance the scientist’s ability to understand and intervene in a rapidly changing world.

This seminar is part of the CECS Seminar Series.


Srinivas Chemboli is a PhD student in the Software Intensive Systems Engineering Group at the School of Computer Science.

Original Seminar Notice at: Omnispective Analysis and Reasoning: An Epistemic Approach to Scientific Workflows, CECS Seminar List, The Australian National University, 2010

Seminar: Fast food for Computational Scientists!

November 4, 2009 § Leave a comment

Speaker: Ganesh Venkateshwara, Research Staff, School of Computer Science (SoCS, ANU)

Date: Thursday, 05 November 2009

Time: 4:00 PM – 5:00 PM
Venue: CSIT Seminar Room, N101, CSIT Building, Building (108), North Road, ANU (campus map)

Website: Seminars @ CECS

Enquiries: Dr Malcolm Newey

“A sizable number of computational chemists (physicists, biologists and material scientists alike) use a wide variety of tools to perform computation, visualization and presentation. Many a times these are incompatible with each other, necessitating reliance on, often cumbersome, external tools    to perform appropriate conversions. A few of the computational chemists also use myriad programming environments to develop new computational codes or visualization tools. However, there is no environment that succinctly amalgamates programming environments and various tools available to a computational chemist, which many a times hinders easy integration and rapid application development.

“In this talk, I present MeTA Studio, a programmable cross-platform environment for computational chemists that aims to address this issue.”

This seminar is part of the CECS Seminar Series.

Ganesh Venkateshwara is a Post-doctoral fellow at the School of Computer Science, Australian National University, and is an active member of the school’s Computer Systems group.

Original Seminar Notice at: Fast Food for Computational Chemists, CECS Seminar List, The Australian National University

Article: India’s Toughest Contest

November 1, 2009 § Leave a comment

Author: Kate Sullivan, Phd Candidate, India specialist, Department of International Relations, The Australian National University

Published: Sunday, 01 November 2009

Full story at: http://inside.org.au/indias-toughest-contest/

Hope and perseverance drive the enormous number of young Indians with ambitions to work in government, reports Kate Sullivan

India's toughest contest

India's toughest contest

Kate Sullivan is a PhD candidate and India specialist in the Department of International Relations at the Australian National University.

Seminar: Can we Increase Software Development Productivity by an Order of Magnitude

September 22, 2009 § Leave a comment

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Speaker: Shayne Flint, Senior Lecturer, School of Computer Science (SoCS, ANU)

Date: Thursday, 01 October 2009

Time: 4:00 PM – 5:00 PM
Venue: CSIT Seminar Room, N101, CSIT Building, Building (108), North Road, ANU (campus map)

Website: Seminars @ CECS

Enquiries: Dr Malcolm Newey

“Demand for software developers is increasing while the number of software engineering and IT students remains stable or in decline. At the same time, there is an increasing need to quickly build software systems in response to rapid social, economic and environmental change. The CECS Software-Intensive Systems Engineering (SiSE) group is addressing these issues by developing novel technology which aims to increase software development productivity by an order of magnitude.

“To achieve this objective we are exploring the use of Model- Driven Engineering (MDE) and ways to improve its effectiveness. Specifically, we are addressing problems in areas such as requirements and stakeholder management; integrating multiple viewpoints, cross-cutting concerns, modelling languages and paradigms; variations in architecture and implementation; model semantics, translation, synchronisation, evolution and reuse; the presence of uncertainty, imperfection and ambiguity; verification, scalability and visualisation. This is a long list, but our research indicates the possibility that many of these problems may be the result of entrenched assumptions that underpin existing approaches to MDE.”

In this seminar Dr Flint will demonstrate a new approach to MDE which is developed from a very different set of assumptions. The approach is proving effective and addresses or eliminates many of the problems with existing approaches. If commercialised, it could have direct and demonstrable economic impact by increasing ICT industry productivity and our ability to rapidly react to emerging opportunities and threats.

This seminar is part of the CECS Seminar Series.

Shayne Flint is a Senior Lecturer at the School of Computer Science, Australian National University, and is an active member of the department’s Software-Intensive Systems Engineering group. He started his career as a RAAF engineering officer and has worked in industry in various software/systems engineering, consulting, marketing, management and commercialization roles. Dr Flint has broad industry experience and is the originator of Aspect-Oriented Thinking, a systematic approach to developing, managing and integrating the multi-disciplinary knowledge and expertise required to understand and improve complex systems. Nowadays, he is driven by a desire to radically improve the productivity of software development, particularly within multi-disciplinary contexts such as environmental science and engineering.

Original Seminar Notice at: Can we Increase Software Development Productivity by an Order of Magnitude, CECS Seminar List, The Australian National University, 2009

Article: Pragmatic ideals? After G8-G5, Indian PM heads for NAM summit

July 18, 2009 § Leave a comment

Author: Kate Sullivan, Phd Candidate, Lecturer, Department of International Relations, The Australian National University

Published: Tuesday, 14 July 209

Full story at: http://asiapacific.anu.edu.au/blogs/southasiamasala/2009/07/14/pragmatic-ideals-after-g8-g5-indian-pm-heads-for-nam-summit/

By highlighting the necessity of multilateral approaches to global challenges, Manmohan Singh’s rhetoric at the G8-G5 honed in on the utility rather than the morality of broad collaboration.

Kate Sullivan is a PhD candidate and India specialist in the Department of International Relations at the Australian National University. She lectures  Hindi-Urdu Filmi Hindi (a course on Bollywood film studies) at the Faculty’s South Asia Center. She is also the co-editor of the Research School of Pacific and Asian Studies’ new blog: South Asia Masala.

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