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07 January 2025 | Story Gerda-Marie van Rooyen | Photo Supplied
KovsieX
KovsieX offers a comprehensive digital experience through podcasts, video content, and social media. This initiative is set to transform the student experience, creating a strong sense of belonging and collaboration across campuses.

Optimising student experience while providing students with multimedia training using state-of-the-art equipment and aligning with Vision 130, KovsieX is set to become a great asset to the university, its students, and the community. 

This initiative, approved by the UFS Rectorate on 29 November 2023, combines various student media brands on the Bloemfontein and Qwaqwa campuses (KovsieFM, Q-Lit, KovsieTV, KovsieCAST) into a unified brand consisting of three student-driven sub-departments. This includes audio (radio and podcasts), video (long and short form), and social media (including TikTok, Instagram, WhatsApp, and YouTube). 

An all-digital approach 

Gerben van Niekerk, Head of Student Experience (KovsieX), explains: “This all-digital approach leverages digital radio, podcasts, and social media platforms to create a sense of belonging among students by reflecting on and leading student life across the campuses.” KovsieX has achieved remarkable success, reaching an audience of more than 1,2 million in the first semester alone, with multiple TikTok videos surpassing 100 000 views. 

“Recognising the evolving radio landscape, our approach integrates a comprehensive digital strategy to adapt to changing media consumption preferences and provide students with hands-on experience on emerging platforms, strengthening their market relevance. KovsieX (previously KovsieFM) moves away from traditional FM broadcasting and has enabled the students to cover a wider range of topics that affect the Kovsie community,” says Van Niekerk. He adds, “The essence of KovsieX can be summarised in our one-word slogan: IMAGINE.”  

KovsieX supports Vision 130, as it leverages emerging technologies to enrich academic and non-academic student experiences. Furthermore, it also provides students with the opportunity to gain on-the-job and leadership experience in the KovsieX executive committee (KovsieXco), comprising a small group of ‘dynamic and highly talented students’, with their first objective: to decide on a brand name and setting on KovsieX – with the ‘X’ referring to experience. 

A mobile app provides students with easier access to KovsieX’s content. This initiative is set to increase students’ experience even more, as possible partnerships are in the pipeline to deliver a year-long dialogue series on themes pertinent to students. “This initiative will engage students on key issues such as leadership, mental health, heritage, and anti-discrimination through a blend of digital content – including interviews, social media posts, and expert discussions – and live on-campus events.”  

State-of-the-art facilities 

The construction of the KovsieX Pod on the Bloemfontein Campus allows students to produce content in a state-of-the-art podcast and video studio with Apple Mac workstations and a meeting room. A similar space in the current Student Media Building on the Qwaqwa Campus, named the KovsieX Q-Pod, is on the cards, as is the integration of KovsieX across the Bloemfontein and Qwaqwa campuses. “KovsieX will be broadcast from two locations and will, therefore, allow students from both campuses to interact with one another live on air. Both radio studios will be rebuilt to allow students to stream directly on YouTube, Instagram, and TikTok from both campuses simultaneously. This is made possible by cutting edge cloud-based software – popular in Europe – but KovsieX will be the first to leverage this technology in the country,” shares Van Niekerk.

News Archive

Studies to reveal correlation between terrain, energy use, and giraffe locomotion
2016-11-18



More than half of giraffes in captivity in Europe are afflicted by lameness. This high prevalence represents an important welfare issue, similar to other large zoo animals.

According to Dr Chris Basu, a veterinarian at the Royal Veterinary College in the UK, giraffes in captivity are often afflicted by overgrown hooves, laminitis and joint problems. Diagnosis and treatment is limited by our understanding of anatomy and function, more specifically the locomotion of these animals. Although the giraffe is such a well-known and iconic animal, relatively little has been studied about their locomotor behaviour.

Dr Basu recently visited South Africa to do fieldwork on the locomotion of giraffes as part of his PhD studies under the mentorship of world-renowned Professor of Evolutionary Biomechanics, Prof John Hutchinson. This project is a joint venture between Dr Basu and Dr Francois Deacon, researcher in the Department of Animal, Wildlife, and Grassland Sciences at the UFS. Dr Deacon is a specialist in giraffe habitat-related research. 

Together Prof Hutchinson and Drs Deacon and Basu form a research group, working on studies about giraffe locomotion.

Wild giraffe population decrease by 40% in past decade

“Locomotion is one of the most common animal behaviours and comes with a significant daily energetic cost. Studying locomotion of wild animals aids us in making estimates of this energetic cost. Such estimates are useful in understanding how giraffes fit into ecosystems. Future conservation efforts will be influenced by knowledge of the energy demands in giraffes.

“Understanding aspects of giraffe locomotion also helps us to understand the relationships between anatomy, function and evolution. This is relevant to our basic understanding of the natural world, as well as to conservation and veterinary issues,” said Dr Deacon.

Locomotion study brings strategy for specialist foot care

On face value it seems as if foot disease pathologies are more common in zoo giraffes than in wild giraffes. “However, we need a good sample of data from both populations to prove this assumption,” said Dr Basu. 

This phenomenon is not well understood at the moment, but it’s thought that diet, substrate (e.g. concrete, straw, sand and grass) and genetics play a part in foot disease in giraffes. “Understanding how the feet are mechanically loaded during common activities (standing, walking, running) gives our research group ideas of where the highest strains occur, and later how these can be reduced through corrective foot trimming,” said Dr Basu.

Through the studies on giraffe locomotion, the research group plans to devise strategies for corrective foot trimming. At the moment, foot trimming is done with the best evidence available, which is extrapolation from closely related animals such as cattle. “But we know that giraffes’ specialist anatomy will likely demand specialist foot care,” Dr Basu said.

Studying giraffes in smaller versus larger spaces

The research group has begun to study the biomechanics of giraffe walking by looking at the kinematics (the movement) and the kinetics (the forces involved in movement) during walking strides. For this he studied adult giraffes at three zoological parks in the UK. 

However, due to the close proximity of fencing and buildings, it is not practical to study fast speeds in a zoo setting. 

A setting such as the Willem Pretorius Nature Reserve, near Ventersburg in the Free State, Kwaggafontein Nature Reserve, near Colesberg in the Karoo, and the Woodland Hills Wildlife Estate in Bloemfontein are all ideal for studying crucial aspects such as “faster than walking” speeds and gaits to measure key parameters (such as stride length, step frequency and stride duration). These studies are important to understand how giraffe form and function are adapted to their full range of locomotor behaviours. It also helps to comprehend the limits on athletic capacity in giraffes and how these compare to other animals. 

Drones open up unique opportunities for studying giraffes

The increasing availability of unmanned aerial vehicles (UAVs)/drones opens up unique opportunities for studying locomotion in animals like giraffes. Cameras mounted onto remotely controlled UAVs are a straightforward way to obtain high-quality video footage of giraffes while they run at different speeds.

“Using two UAVs, we have collected high definition slow motion video footage of galloping giraffes from three locations in the Free State. We have also collected detailed information about the terrain that the giraffes walked and ran across. From this we have created 3D maps of the ground. These maps will be used to examine the preferred terrain types for giraffes, and to see how different terrains affect their locomotion and energy use,” said Dr Deacon.

“The raw data (videos) will be digitised to obtain the stride parameters and limb angles of the animals. Later this will be combined with anatomical data and an estimation of limb forces to estimate the power output of the limbs and how that changes between different terrains,” said Dr Basu.


Related articles:

23 August 2016: Research on locomotion of giraffes valuable for conservation of this species
9 March 2016:Giraffe research broadcast on National Geographic channel
18 Sept 2015 Researchers reach out across continents in giraffe research
29 May 2015: Researchers international leaders in satellite tracking in the wildlife environment

 

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