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29 August 2025 | Story Igno van Niekerk | Photo Stephen Collett
One-Room Space
The UFS’ one-room spaces are designed to connect students and lecturers seamlessly across locations and borders.

The university is transforming education across its Bloemfontein, Qwaqwa, and South campuses with its pioneering one-room spaces, mirrored across all three locations to deliver cutting-edge, immersive learning. Research for these innovative spaces began in 2023, sparked by a photo from the University of Leuven in Belgium, which the university identified as showcasing Leuven’s advanced classroom setup. Prof Philippe Burger, Dean of the Faculty of Economic and Management Sciences, leveraging a connection there, led a team to explore this technology globally, collaborating with Canada’s X2O OneRoom to make the UFS the first in South Africa – and one of (as far as we know) two in Africa, alongside Kenya – to offer such immersive classrooms.

Unlike Zoom or Blackboard, where online students were often overlooked as small icons, one-room spaces ensure that everyone feels included. Designed for postgraduate training and PhD interactions, these rooms accommodate up to 40 in-person and 40 online participants, with large video camera feeds on screens, reminiscent of the TV programme Small Talk, where children’s faces lined the wall for engagement. Directional audio and personal cameras create a sensory experience, with sound coming from the speaker’s direction and eye contact feeling natural. Angelique Carson-Porter from the Department of Nutrition and Dietetics shared her excitement about a postgraduate session led by Prof Aletta Olivier, Lecturer in the Centre for Gender and Africa Studies: “It feels like you’re right there, even from Pretoria or Ghana. You see everyone, interact, and never miss a beat.”

Gavin Coetzer at ICT Services, a key project leader, highlighted how lecturers struggled with older platforms’ limitations, often only addressing online questions at the end, disrupting the flow. The UFS’ one-room spaces, implemented in the UFS Business School, the Clinical Skills Unit, South Campus teacher training, and Qwaqwa, solve this with breakout sessions and global conference support. While other universities rely on Teams, the UFS’ user-friendly tech, with around 24 screens and ceiling microphones, allows lecturers to focus on teaching.

Staying ahead of tech trends is challenging, but the university is excelling, making education inclusive, engaging, and truly global.

News Archive

Mathematical methods used to detect and classify breast cancer masses
2016-08-10

Description: Breast lesions Tags: Breast lesions

Examples of Acho’s breast mass
segmentation identification

Breast cancer is the leading cause of female mortality in developing countries. According to the World Health Organization (WHO), the low survival rates in developing countries are mainly due to the lack of early detection and adequate diagnosis programs.

Seeing the picture more clearly

Susan Acho from the University of the Free State’s Department of Medical Physics, breast cancer research focuses on using mathematical methods to delineate and classify breast masses. Advancements in medical research have led to remarkable progress in breast cancer detection, however, according to Acho, the methods of diagnosis currently available commercially, lack a detailed finesse in accurately identifying the boundaries of breast mass lesions.

Inspiration drawn from pioneer

Drawing inspiration from the Mammography Computer Aided Diagnosis Development and Implementation (CAADI) project, which was the brainchild Prof William Rae, Head of the department of Medical Physics, Acho’s MMedSc thesis titled ‘Segmentation and Quantitative Characterisation of Breast Masses Imaged using Digital Mammography’ investigates classical segmentation algorithms, texture features and classification of breast masses in mammography. It is a rare research topic in South Africa.

 Characterisation of breast masses, involves delineating and analysing the breast mass region on a mammogram in order to determine its shape, margin and texture composition. Computer-aided diagnosis (CAD) program detects the outline of the mass lesion, and uses this information together with its texture features to determine the clinical traits of the mass. CAD programs mark suspicious areas for second look or areas on a mammogram that the radiologist might have overlooked. It can act as an independent double reader of a mammogram in institutions where there is a shortage of trained mammogram readers. 

Light at the end of the tunnel

Breast cancer is one of the most common malignancies among females in South Africa. “The challenge is being able to apply these mathematical methods in the medical field to help find solutions to specific medical problems, and that’s what I hope my research will do,” she says.

By using mathematics, physics and digital imaging to understand breast masses on mammograms, her research bridges the gap between these fields to provide algorithms which are applicable in medical image interpretation.

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