All new professors, whether they have been internally promoted or appointed externally, are given the opportunity to give an inaugural lecture. The Department's Inaugural Lecture series provides an opportunity to celebrate these achievements with each lecture representing a significant milestone in an academic's career.
The normal format is for a lecture of approximately an hour, followed by a celebratory wine reception.
Lectures are open to all University staff and students as well as to members of the public. Please see below for upcoming lectures and for details of how to obtain a ticket.
Go to the bee and be wise: algorithms from nature
Professor James Marshall
Wednesday 28 February 2018
Lecture Theatre 6, The Diamond
17:00 - 18:00 followed by a reception
Admission free, but registration is required. Places can be booked on the Eventbrite page
Professor James Marshall is the head of the Complex Systems Modelling research group within the Department of Computer Science. His research interests cover modelling of collective behaviour, particularly in social insects, evolutionary theory, decision theory, robotics, and theoretical neuroscience.
Abstract: Honey bees have fascinated humanity for thousands of years, from their ‘political' and ‘economic’ life, to their abilities to solve problems in groups and individually. In this lecture I will talk about my work in understanding how bees work, from collectively choosing the best place to live, to navigating through the world. I will talk about bees’ individual brains, but also about how they might collectively function like a brain. I will discuss what engineering may learn from the bee. There will be bee-inspired robots, and probably some honey.
Past Inaugural Lectures
The beat goes on... How computer models help us understand how our hearts beat.
Professor Richard Clayton
Wednesday 24 January 2018
Professor Richard Clayton is part of the Complex Systems Modelling research group within the Department of Computer Science. His research interests are focussed on developing physics-based and mechanistic computational models and simulations as tools to examine the structure and function of human tissues and organs. This theme aligns with the INSIGNEO institute for in-silico medicine in Sheffield.
Abstract: Each time our heart beats, an extraordinary sequence of events takes place at spatial scales ranging from single molecules right up to the whole organ. These intricate mechanisms continue to work reliably throughout our lifetimes. So what are they? What can go wrong? And what have computers got to do with it all? In this lecture I will address these questions, and show how an engineering mindset can not only shed light on the way that biological systems behave, but also pose some important scientific questions about the nature of living things.