The Boston Consulting Group applies insights from a variety of academic disciplines to the strategic challenges facing business and society.

Boston  Consulting Group

The Centre for Defence Enterprise funds innovative research that could lead to a capability advantage for armed forces and national security.

Centre for  Defence Enterprise

The U.S. Defence Advanced Research Projects Agency makes pivotal investments in breakthrough technologies for national security.

Defence Advanced  Research Projects Agency

The U.S. Defence Threat Reduction Agency funds research to prepare for and combat weapons of mass destruction and improvised threats.

Defence Threat  Reduction Agency

The European Innovation Council funds world-class scientists and innovators to develop and accelerate disruptive technology businesses.

European  Innovation Council

Future and Emerging Technologies, part of the EU science agency FP7, funds research on high-risk, high-reward technologies of the future.

FP7 Future and  Emerging Technologies

Information and Communication Technologies, part of the EU science agency FP7, funds research on devices and applications that rely on information.

FP7 Information and Communication Technologies

The Garfield Weston Foundation supports a range of charities across the UK and the restoration and redevelopment of their buildings.

Garfield Weston  Foundation

Future and Emerging Technologies, part of the EU science agency H2020, funds research on high-risk, high-reward technologies of the future.

Horizon 2020 Future, Emerging Technologies

Invenia is a company of scientists and engineers that uses machine learning to optimize complex decision making and reduce inefficiencies.

Invenia Labs

LIMS Ventures is the start-up incubator of the London Institute which accelerates projects with potential for widespread commercialization.

LIMS Ventures

The U.S. Office of Naval Research supports basic research and technology for future naval power and the preservation of national security.

Office of  Naval Research

The Pilgrim Trust supports the preservation of architecturally important buildings and historically significant artifacts and documents.

Pilgrim Trust

The Porter Foundation supports projects in education, the environment, culture, health and welfare that encourage excellence and innovation.

Porter Foundation

The Rose Foundation provides financial assistance to charities undertaking building restoration and development in and around London.

Rose Foundation

The Edward Harvist Trust supports organisations that improve the quality of life for local people in Westminster and other London boroughs.

Edward Harvist Trust

The European Commission Migration and Home Affairs supports research to ensure the security of the EU and cooperation with non-EU countries.

European Commission  Migration and Home Affairs

The London Institute for Mathematical Sciences

On 2 Sep at 6pm, Marc Warner talks about how to manage the safety of embedded artificial intelligence in our Science and Society series.

Reigning in Skynet

We’ve captured the inside and outside of our building in a series of photographs which shows off the extensive renovation of the Institute.

Building in pictures

An overview of our past and present seminars, symposia, business dinners and other events can be found in our new Events page.

Events

Our research projects range from AI to materials to finance to cosmology. An overview of all of them is shown in our new Projects page.

Projects

At our 3rd Science of Business dinner we discuss innovation, technological change and new ways to combat climate change.

Business dinner

By tracking the tags of our research papers in real time, we provide a comprehensive overview of what we are working on and what’s new.

Research interests

In the Times Higher Education magazine, the London Institute argues that “We need to challenge the university monopoly on research”.

LIMS in THE

The London Institute has been awarded Independent Research Organization status and can now compete for £7bn of annual government funding.

Becoming an IRO

The distribution of product complexity helps explain why some technology sectors tend to exhibit faster innovation rates than others.

Faster innovation

A simple solvable model of memristive networks suggests an analogy between the asymptotic states of memristors and the Ising model.

Memristive networks

Sir John Beddington joins the Institute’s board of trustees, bringing experience in sustainability, science policy and scientific ventures.

New Trustee

Statistical physics harnesses links between maximum entropy and information theory to capture null model and real-world network features.

Network physics

Sir Roy Anderson joins the Institute’s board of trustees, bringing experience in defence, governance and mathematical bio-medicine.

You can help determine the most important research to advance. Any funds that you give for a project will be spent entirely on that project.

Kickscience

The mean dissipated work is proportional to a relative entropy between probability distributions over all possible values of work.

One-shot statistics

The distributions of size and shape of a material’s grains can be constructed from a 2D slice of the material and electron diffraction data.

Materials inference

Modern medicine can access vast amounts of patient-specific data, such as individual genomes, blood bio-markers and medical images. But it fails to use this information effectively. Analysing next-generation data with previous-generation tools causes avoidable patient harm, misses clues to new treatments and contributes to the high failure rate of clinical trials.
In this project we create more powerful mathematical methods for predicting disease outcomes. Most present-day mathematical and machine learning methods have a common Achilles heel. When the amount of information becomes too large, they confuse real patterns with noise and miss the wood for the trees—a breakdown known as overfitting. Our approach to bypassing this is founded on treating topological patterns in medical data as constraints on a random graph ensemble.
More accurate clinical prediction reduces the likelihood of harmful, ineffective treatments and saves lives. Each doomed trial that gets stopped early by better analysis of preliminary data saves over £100m for health services and the drug industry. And rescuing failing trials by identifying appropriate drug recipients broadens the range of available drugs.

Creating powerful mathematical methods for predicting the outcomes of diseases that pinpoint the right treatments and speed up drug trials.