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10 June 2019 | Story Charlene Stanley | Photo Charl Devenish
4IR Prof Marwala
Prof Tshilidzi Marwala, Vice-Chancellor and Principal of the University of Johannesburg and speaker at the first UFS public event on 4IR awareness (middle), with Prof Corli Witthuhn, UFS Vice-Rector: Research (left), and Tafadza Kachara, member of the UFS 4IR committee.
A computer programmed to play poker and learning by itself how to bluff; an algorithm that predicts whether two countries will ever go to war; machines that detect epilepsy with almost flawless accuracy these are some of the groundbreaking abilities brought about by technologies associated with the Fourth Industrial Revolution (4IR).

Addressing the first UFS public event to enhance 4IR awareness, Professor Tshilidzi Marwala, Vice-Chancellor and Principal of the University of Johannesburg, briefed staff, interested parties and members of the media about recent 4IR developments and their implications.

Prof Marwala is currently a thought leader on the impact of the 4IR on higher education in South Africa as well as the Deputy Chairperson of the national commission appointed by the president to formulate 4IR strategies for South Africa.

Industrial revolution history

He recapped how, during the first industrial revolution, people started to understand how nature worked, ultimately leading to the development of the steam engine.
The second industrial revolution was marked by the development of electromagnetism which led to electrification and mass production, while the third produced computerisation and a rise in digital technology. 

The fourth industrial revolution is characterised by a fusion of technologies that blur the lines between cyber, physical and biological systems. This has led to rapid advances in fields such as artificial intelligence, quantum computing and 3D printing.


Artificial intelligence

Prof Marwala pointed out that, although fears were rife of machines taking over people’s jobs, the flipside of the coin was that dangerous jobs such as fire rescue operations could be carried out by machines without endangering lives.

Artificial intelligence can be employed to prevent bridge and building collapses by monitoring the condition of structures. It can also be used in credit scoring, where machines search for and analyse all the available data on a credit applicant, without having to rely only on the (sometimes fraudulent) information supplied by the credit seeker. 

He emphasised the great need to develop algorithms applicable to our continent, such as translating software that makes provision for the clicks in languages like isiXhosa, and facial recognition software that incorporates data collected in African countries. 


Is Africa ready? 

Responding to a question from an audience member, Prof Marwala indicated that Africa was certainly not ready for the 4IR when it came to the content of teaching curricula and infrastructure.

“As universities, we should not sit back and wait for change. We have the responsibility to lead our societies to have the same experiences as elsewhere in the world,” he concluded.

News Archive

Short course in Applied Conservation Genetics developed at UFS
2014-08-22

 

Photo: en.wikipedia.org

During discussions with stakeholders in Kenya in 2013, a need was identified for training in conservation genetics with an African emphasis. In answer, Prof Paul Grobler from the Department of Genetics developed a short course in Applied Conservation Genetics.

Some of the phenomena studied in this field include:
• hybridisation between species such as blue wildebeest and black wildebeest,
• wildlife poaching and
• potential inbreeding in small game-farm populations.

From the onset, the course has been developed as an international venture. To this end, Dr Frank Zachos from the Natural History Museum in Vienna, Austria, committed himself to the project. Dr Jamie Roberts from the Department of Fish and Wildlife Conservation at Virginia Tech University in the USA also came on board. Both pledged their time and expertise to the course – without any financial gain.

Subsequently, our Department of Genetics presented this short course at the National Zoological Gardens (NZG) in Pretoria earlier this year. The team of presenters included Prof Grobler, Dr Zachos and Dr Roberts. They were joined by Dr Desire Dalton from the Research Division of the NZG, who added valuable practical experience to the presentations.

The course assumes a degree of prior knowledge of population and molecular genetics. A strong emphasis is placed on practical applications. The programme includes a strong component of statistics and hands-on training in the many approaches and software used in population genetics.

The group that attended the course included a contingent from the Namibian Ministry of Environment and Tourism, Dutch postgraduate students currently working at the University of Johannesburg and delegates from across South Africa.

This successful meeting followed an experimental first round of the course presented in Nairobi during 2013, attended by representatives from Kenya, Malawi, Nigeria, Mexico and Belgium.


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