Skip to content or footer

Background

Go Upstream provides a practical training and design programme for transport providers, helping to make services more inclusive for people living with dementia. They bring people with dementia together with people who provide travel and transport services, putting their voice at the heart of future mobility service design.

Challenge

Travel connections can be challenging, potentially creating barriers to travel, and if the challenges lie in the spaces in between services, how do we discover them, how do we go about reducing barriers, and who is responsible for making improvements?

In 2018, Transport Scotland called for ideas for projects to address some of the challenges identified in Scotland’s Accessible Travel Framework.  This became the focus of a new project that brought together a broad group of partners, led by Go Upstream and funded by Transport Scotland*, called ‘Making Connections: the spaces in-between’. The project idea was to bring disabled people together with transport staff to explore connections from rail stations to ferry terminals and then collaboratively design solutions to these challenges. 

It was an ambitious proposal that required a partnership with many different skills. 

The project partners tapped into the expertise developing here in Scotland around improving environments and services for people with dementia. Making Connections has benefitted from the growing network of projects and organisations funded by the Life Changes Trust.  Partners include StudioLR who are working on improving signage, Paths for All who are changing the way that we think about inclusive outdoor environments and the British Deaf Association who will ensure that the views of deaf people who are affected by dementia are included.

Transport Scotland placed a large emphasis on evaluation and it was important for Go Upstream to bring in specialist expertise to ensure that they could track and describe the project’s impact. 

Solution

Referred by Business Gateway, Interface introduced Andy Hyde of Go Upstream to Catharine Ward Thompson, Professor of Landscape Architecture and director of the OPENspace Research Centre. 

OPENspace is an international research centre, based in the universities of Edinburgh and Heriot-Watt, which contributes evidence on why inclusive access to the outdoors matters.

It is a collaborative, multi-disciplinary team, bringing together experts in landscape architecture, environmental psychology, human geography and forestry.

Addressing the full spectrum of open space environments – from city parks and squares to remote rural landscapes – their work informs policy on health and wellbeing, social inclusion, countryside access and sustainable urban development.  They focus on the benefits to be gained from getting outdoors and the barriers currently experienced by different users, particularly those from disadvantaged groups.

It was OPENspace’s previous experience of working with people in different outdoor environments, as well as taking a qualitative approach, that was key to tracking the project’s impact.

Benefits

A key benefit of having the OPENspace team involved in the Making Connections project was the ability to use their monitoring and evaluation results to inform the design of the project approach and tools as the project progressed. By taking this reflective approach, Go Upstream ensured that they were able to keep aligned with their guiding document, Scotland’s Accessible Travel Framework. 

*The new fund provides support to projects which enable the central vision outlined in the Accessible Travel Framework – that all disabled people can travel with the same freedom, choice, dignity and opportunity as other citizens – with a particular focus in encouraging more sustainable active travel options.

Background

RIGOCAL (which stands for “RIGOrous CALculation”) provides civil engineering, surveying and marine mammal observation services for energy, construction and offshore industries.

The guideline for offshore piling in the UK Continental Shelf, set by the Joint Nature Conservation Committee (JNCC), requires that JNCC certified Marine Mammals Observers (MMO) should monitor the presence of marine mammals within a mitigation zone around the source of noise during pile driving for offshore wind construction.  The most popular way to do this is by using binoculars with the data being recorded manually by MMOs. This method faces criticism because it does not have a wide view of the area (360 degrees) and it can only be done in good visibility (daylight) with good sea conditions.

RIGOCAL is architecting the best way to use infrared (IR) cameras to detect marine mammals when they approach the sea surface in the vicinity of offshore structures under construction. Their novel concept combines machine learning with Infrared and High Definition videos to automatically detect and classify marine mammals.

Challenge

The company was looking to do a feasibility study into the development of an algorithm for the automatic extraction of marine mammals (seals, dolphins, whales, porpoises) in video images from thermally detected radiations (infrared camera) and high definition images (RGB camera).

Solution

Scottish Enterprise referred RIGOCAL on to Interface, who then put the company in contact with the Edinburgh Parallel Computing Centre (EPCC) at the University of Edinburgh as they have expertise in advanced data analytics and image recognition capability based on the utilisation of machine learning technologies.  In collaborating on this project, EPCC were able to make use of its specialist facilities – namely its High-Performance Computing and Data Infrastructure located within the University.

The feasibility study was funded by a Scottish Funding Council Innovation Voucher.

Benefits

Company Benefits

EPCC closed a gap in RIGOCAL’s technical and resource capabilities for developing a machine-learning algorithm to analyse data in real-time. This innovation will change the way traditional marine mammal observation is conducted providing more accurate and consistent service at a lower cost.

The RIGOCAL approach allows a 360-degree view of the area. This approach is also innovative in that marine mammal detection will be made possible during the night and in poor visibility because of the advanced IR sensor. This will allow pile driving to start even in low visibility, especially night time, which will enable the offshore piling construction companies to operate 24/7.

As a result, RIGOCAL’s new service will contribute to reducing total operation hours, therefore cost.  Cost reduction during the construction phase will lead to total cost reduction in offshore wind development, helping the industry to achieve the UK government’s goal of driving down the levelised cost of electricity.

The technology applied for this specific environmental issue will also open up new opportunities, not only from additional environmental perspectives – such as protecting birds against collision with the blades of wind turbines, and leak detection from oil pipelines – it will also save human life in the sea by allowing automatic detection of castaways.

Academic Benefits

EPCC will benefit from:

(1) increased capability in the application of advanced data analytics and machine learning,

(2) an opportunity to grow its target market across the marine/energy space, and

(3) strengthening its position as a sustainable centre collaborating with industry.

Follow-on Activity

The company has recently secured OGIC (Oil and Gas Innovation Centre) funding as well as further funding from the DataLab, which is to be used in conjunction with the OGIC funding.

Please note that Interface administers the Innovation Voucher Scheme on behalf of the Scottish Funding Council. All funding applications are reviewed on a case by case basis by the Scottish Funding Council, guidelines can be found here.

Sitting is more dangerous than smoking, kills more people than HIV and is more treacherous than parachuting. We are sitting ourselves to death.”  Dr James Levine, Director of the Mayo Clinic, Arizona State University

Company Background
Each year, significant numbers of workers suffer ill health as a result of poor ergonomics and unhealthy lifestyles at work. This has an impact on quality of life and results in tens of millions of lost sick days. With awareness growing of the adverse effects of sedentary, desk-bound, computer-centric work lifestyles, Welbot was founded in Edinburgh in 2017 with a primary goal of helping people take control of their wellbeing in the workplace by instigating positive behavioural modification through the use of smart, appropriate technologies.
 
The Welbot team comprises of Mykay Kamara (CEO), Sam Deere (CTO) and Pete Burns (CDO) who are a close-knit group of commercial, technology and marketing minds working alongside Creative Directors Ian Greenhill and Jordan Laird, with the business being chaired by Ian Smith ex-MD of Oracle UK.
 
Welbot is a cross-platform, digital intervention and productivity platform, tailored to each user, that helps employees stay physically and mentally well in the workplace by learning and adapting to the actions that they take. The wellness management software encourages activities such as stretching, screen breaks, nutrition, mindfulness, hydration, micro exercises and simple, rewarding brain training games and is designed and engineered for both individual and large-scale enterprise use.

Challenge 
The company initially wanted to collaborate with a university to understand how they could extract knowledge and insights from data and machine learning, especially around autonomous, self-teaching systems that can analyse data and provide insights to human behaviour. The aim of this project was to 1. investigate the use of predictive models of user response to screen-based notifications and prompts and 2. provide a path for future enhancement of the underlying Welbot AI framework.

Solution
Interface connected the team with the Department of Computing and Information Science at the University of Strathclyde, where they were successfully awarded a Scottish Funding Council Innovation Voucher to address the company’s challenge and to develop a proof of concept prototype to incorporate the findings into the application roadmap.

Follow-on Activity 
In addition, Interface saw the opportunity to provide additional support to the company by partnering them with marketing and business students at both the University of Strathclyde and the University of Edinburgh. Interface drew up a project outline and introduced the team to the academic supervisors at both universities. The projects were approved and the company now has a student team from Marketing at the University of Strathclyde researching, analysing and making recommendations to support their business strategy around corporate wellbeing programmes in the UK, as well as an Msc student from the University of Edinburgh, doing a company sponsored dissertation on evaluating the uptake and Return On Investment of wellbeing programmes.
 
Offering further support to the company, Interface issued another search across the universities to support their requirement of cross-disciplinary academic expertise in exercise physiology and computer science. They were ultimately partnered again with the University of Strathclyde who had the best fit to continue the project. Strathclyde were successfully awarded a Follow-On Innovation Voucher and they have drawn upon academic expertise from both the School of Psychological Sciences and Health (PSH) and Computer and Information Sciences (CIS).  This project will address analytics of user behavioural data and the psychological effects of prolonged sedentary behaviour on the body.
 
Welbot are also working with experts in behavioural sciences within the University of Strathclyde, University of Edinburgh and University of Aberdeen to look at psychological and behavioural sciences with a focus on occupational stress, behaviours relating to wellbeing in the workplace, and responses to stimuli to change behaviour in a technology setting.
 
These collaborations have all been achieved within just an eight-month time frame.

Background

Investment Solver Ltd was founded in 2014 by Manuel Peleteiro.  The company has developed a digital platform called Inbest, a data analytics platform that aims to democratise the access to wealth management. Inbest enables financial institutions to provide a holistic, personal and realistic financial planning service. This solution automates the financial planning process by gathering and analyzing customers’ financial data.

Challenge

The company approached Interface in 2015 with the concept around developing a platform that would help users learn and understand their finances, empowering them to make better financial decisions. At the time, investment providers were launching online investment propositions targeted at digital consumers, but a large majority of this market segment was not engaged with saving and investing.

Investment Solver was looking to collaborate with academics interested and researching the fields of:

• Cognitive science

• Information visualisation

• Computer interaction science

• User interface design

Enhanced Support in the Interim

Whilst the company was refining its business proposition and technical offering, Interface connected them with Edinburgh Napier University who supported them in applying for a RSE (Royal Society of Edinburgh) Fellowship, hosted by the University.  They were successful, and as an awardee, the company were able to focus solely on refining their business ideas, whilst receiving one year’s salary, expert training in entrepreneurship, and access to mentorship from business Fellows of the RSE and other successful entrepreneurs in the business community – all of which are vital for an early stage business.

Interface also connected them to Dr Roberto Rossi, Director of Post Graduate Programmes at University of Edinburgh Business School, as they were looking to develop a sound and innovative marketing strategy.

Dr Rossi’s Project Management students worked with the company to carry out focus groups to test the problems that first home buyers face and evaluate whether HouseUp, one of the company’s applications, would help them.

I am very happy with the output of the project and I have used their insights for the product road map and in presentations with clients”, said Manuel.

Due to the success of the student project, the relationship developed between Interface, Investment Solver and Dr Rossi, resulting in another collaboration between the company and Dr Rossi’s students the following year.  This was a market-orientated project which would help the company guide decisions on one of their product features.  They provided the students with the working prototype of HouseUp, which they used in customer interviews. As a result of the study, Investment Solver gained a better understanding of the characteristics of potential customers and their needs.

“As the norm, the students have done a terrific job”, said Manuel.

Interface continued to keep in touch with Investment Solver to make them aware of additional opportunities that existed within the universities and possible research funding grants.

Solution

Connections with the company were enhanced when Dr Rossi drew upon the expertise of his colleague, Dr Raffaella Calabrese.  She was conducting research to investigate models that integrate socio economic indicators to model and estimate property valuations in a given area while Manuel was looking to build an application to automatically calculate a customer’s financial situation.  Together, they were awarded funding via The Data Lab to part fund an industrial doctorate to analyse data such as banking data and user data and preferences, to develop a system which will offer a long term financial plan for the user. This financial plan, which will include advice on savings and spending, will automatically be adapted to changes in markets and/or other user related data.  The PHD student is being supervised by both Dr Miguel Carvalho (School of Mathematics) and Dr Raffaella Calabrese (Business School) who quotes:

It was great to see how this collaboration developed from student project to a research collaboration with the benefit of seeing how our research directly impacts the company, helping them to develop and enhance their offering. 

Together, this project helps address financial inclusion and financial well-being in society by developing an affordability model to help people to find out how much they can comfortably save.”

Follow-On Activity

As part of their response to the COVID-19 pandemic, over £11k was awarded by the Data-Driven Innovation Programme (DDI) to the University of Edinburgh Business School in collaboration with Investment Solver.  The aim of this project was to support vulnerable people to identify the benefits that they were entitled to and to provide short term affordable lending to bridge the gap that would be repaid once the individuals received their benefits. DDI would support lenders in making such decisions by providing a credit application check that would take into account the amount of benefits that the applicant was entitled to receive.

This would be achieved by developing and applying the Inbest Benefits calculator that uses individuals’ banking data to calculate the income benefits users can claim and monitors their entitlement according to changes in their financial situation.

Background

Interface has a strong track record of successfully matching businesses to academics with an overall aim of enabling companies to be more competitive in national or global markets. Innovation can lead to transformation within an industry sector, not only for individual businesses but also for groups of businesses working together to address common challenges.
Many economic reviews, testimonies and new and existing interactions demonstrated that facilitating opportunities for academics to work with groups of companies is an effective way of increasing the impact and reach of innovation on the Scottish economy.
 

Introduction
The Resource Efficiency Industry Advisory Group for Food & Drink (REIAG) was set up in 2012 as a result of a partnership between Interface Food & Drink, Zero Waste Scotland and the Food and Drink Federation (FDF) Scotland. The aim was to raise awareness and promote opportunities related to environmental sustainability and to stimulate innovation in the food and drink industry. 
The membership comprises of 25 prominent Scottish food manufacturers of all sizes and food types, from bakers to brewers and fish processors to fruit growers. The group has a flexible structure where members attend meetings and participate in collaborative projects with academic partners depending on the theme and its relevance to their own business challenges. 

Challenge 

The Scottish Government’s new Circular Economy Strategy has set ambitious goals such as the new food waste reduction target. There is a need to change the way things are currently done from developing new processes to changing the culture of the workforce, so innovation is key in meeting these targets. Measures to reduce and reuse energy and waste support companies to improve efficiencies in a sector where in general, prices are remaining competitive but costs are rising. The sector has become increasingly competitive but can’t just rely on developing new products and markets to flourish and achieve the ambitious target of £30bn in revenue for the Scottish food and drink industry by 2030. 

Solution 
The aim of the REIAG is to drive activities which will improve the environmental sustainability of the businesses and the wider industry. This is achieved through delivering innovation projects with academia, learning journeys and by providing a forum for direct interaction between businesses and experts to share best practices in issues such as waste, water and energy efficiency. Companies with a common purpose are encouraged to collaborate around innovation and can gain easy access to academic and business expertise in a nurturing and supportive environment. 

Key outcome
A selection of impactful projects are listed below which have de-risked early stage concepts, providing independent evidence of new ways to enhance the sustainability of the Scottish Food and Drink Industry.

Bacterial removal from recycled water – Shellfish Processors
This project was led by the Scottish Shellfish Marketing Group who collaborated with the University of Edinburgh and the James Hutton Institute to carry out research into the effectiveness of UV lighting to kill bacteria in the wash process and by doing so to increase the number of times the water can be recycled. This has led to a further project using UV and filtration techniques to further enhance the water treatment system.   

Heat recovery
This feasibility project was carried out with one of the large companies in the group and Edinburgh Napier University to recycle heat required in the drying process. By deploying the outputs of the project in house, savings of £600,000 a year are forecasted. In addition, the results were disseminated to the other members of the group to explore the viability and application for their own business. 

Bio-treatability of food industry effluents 
This project was a collaboration with the University of Aberdeen on bio-treatability of waste effluent with six of the companies providing quantitative data and a deeper understanding of what their waste could generate in value whether through anaerobic digestion or other processes. This led to the Scottish Salmon Company winning an Interface Food & Drink competition to undertake more in-depth work with the University assessing viability and return on investment for converting their waste effluent into energy and by-products. The company now have the data to make a commercial decision on investing and integrating the processes across their Scottish operations, which has saved them considerable resource, both staff and financial.   

Business benefits
By working together, groups of companies can share best practice, partner on projects of scale with a broad range of academics and industry experts and access funding that encourages new ways of collaborating.

Les McArthur, Operations Director at Dean’s of Huntly commented:

The group provides an excellent platform to work together, sharing knowledge and experiences which, along with technical expertise brought in by the organisers, allows us to develop and implement new sustainability measures in our businesses and saves us time and money. These measures range from high to very low cost so there is something for every type of business. The merit of being able to meet with your peers is also invaluable as we can discuss and collectively solve issues. Many of the topics covered can then be supported by onsite surveys meaning that only some time needs to be invested to establish if a particular topic can save your business money whilst also becoming more sustainable.

Academic benefits
The benefits for academia gained are also significant, including establishing new areas for research and knowledge exchange, collaboration with other academics across other disciplines and institutions and greater visibility of academia to industry. 

Professor John Currie, Director of the Scottish Energy Centre at Edinburgh Napier University added:

“Edinburgh Napier University and the Scottish Energy Centre have benefited enormously from our involvement in groups such as the Resource Efficiency Industry Advisory Group and the Scottish Craft Distillers Association.  Through Interface, they have provided us with the opportunity to work in collaboration with a variety of companies and bring academic thinking to real-life industry challenges.”

Background

Ecometrica is an end-to-end environmental software-as-a-service (SaaS) provider that is recognised as one of the world’s top sustainability brands. Incorporated in 2008, the company has unrivalled experience in helping businesses and governments identify risks and opportunities by combining satellite earth observation data with local information and business intelligence on the award-winning Ecometrica Platform. Ecometrica now has over 250 corporate clients, including ARM, Pearson, Compass Group, Etsy and Hertz.

Ecometrica brings together recognised experts in environmental and sustainability accounting, and their software supports all aspects of sustainability planning, operations and reporting. Their data and services are available from all their worldwide locations. Founded in Edinburgh in 2008, they also have offices in Montreal (2009), London (2012), Boston (2014) and Mexico (2017).

In 2013, a project team, led by the University of Edinburgh and comprising of local SME partners, LTS International and Ecometrica, successfully applied to the DFID (Department for International Development) Hectares Indicator Project – International Climate Fund (ICF) forestry programme.  DFID awarded £32,000 to the team to review and suggest improvements to their methodology for quantifying hectares of avoided forest loss and forest restored as a result of international development finance.

SFC Innovation Voucher Follow On Funding

In 2014, a Scottish Funding Council (SFC) Follow On Innovation Voucher of £11,600 was awarded to Ecometrica and Dr Edward Mitchard from the University of Edinburgh (UoE) for a project titled Earth Observation support for assessing the performance of the UK government’s ICF forest projects.

This follow on funding allowed Dr Mitchard to undertake additional analysis over Brazil to test the suitability of different earth observation (EO) satellite products for monitoring forest change. The project results gave Ecometrica a better understanding of the accuracy of the EO products, and enabled them to improve their testing and performance assessment offerings to institutions such as DFID, DECC, DEFRA, World Bank, and the Asian Development Bank.

“The Innovation Voucher is a fantastic scheme that made it really easy for me to work with a local SME and conduct research with real and immediate impact. My relationship with Ecometrica has grown since the Follow On Innovation Voucher was awarded, with it contributing to the development of ideas towards our current much larger collaborative projects. I would strongly encourage other academics to engage with Interface, who administer this SFC  programme”, said Dr Edward Mitchard, University of Edinburgh.

Benefits of the Collaborative Project

Edinburgh University and Ecometrica will continue to establish a leading position in Europe for this type of work. The benefits to the University of Edinburgh will be felt in terms of its international research and innovation ranking, and its reputation in the fields of forest ecology and the application of space technology. Ecometrica expects to continue its growth in this area:

Background

Whilst two and a half times more heat is consumed than electricity globally, new developments in heat have not been the focus on considerable innovation in recent years.

Sunamp Ltd, which is based in East Lothian, was founded in 2005 by successful technology entrepreneur, Andrew Bissell, who wanted to produce an innovative solution to develop heat batteries that store energy as heat, which can be released on-demand to provide heat and hot water.  
 

Challenge

As over half the world’s population live in densely populated cities and countries there is a clear need for heat energy stores in homes to move beyond gas and for homeowners to adopt solar and heat pumps without compromising on space requirements. Therefore Andrew set out to develop a truly practical heat energy store that was much more efficient and compact than hot water tanks and physically small enough for people to easily store in their homes.

Sunamp’s innovative idea was to create heat storage systems, using Phase Change Materials (PCMs) that are capable of storing and releasing heat as they change phase. In this way excess energy, which would normally be wasted, can be stored as heat for later use. The patented, non-toxic Sunamp Heat Battery stores and provides heat to warm a building or deliver hot water. The energy is released in much the same way as a hand warmer works. 

The issue that Sunamp faced with PCMs is incongruent melting, which affects the PCMs ability to store and release heat over a long lifetime. As a consequence, this was hampering the performance in Sunamp’s heat batteries.
 

Solution

Through Interface, Sunamp was successfully matched with Colin Pulham, Professor of High-Pressure Chemistry and Head of the School of Chemistry at the University of Edinburgh, to analyse the PCMs to develop systems that store renewable energy as heat. They did this by developing additives, which would reduce the effects of any incongruent melting and, therefore, significantly improve the PCM’s heat storage properties. This initial project was funded through a Scottish Funding Council Innovation Voucher and although provided some early results, it was only in the close out meeting that the discussions led to further areas to be investigated. The resulting project proposal was successfully awarded an Engineering and Physical Sciences Research Council (EPSRC) Case studentship which subsequently resulted in the PhD student upon graduation joining the Sunamp team as their Materials Scientist.
 

Benefits

Since the initial partnership that Interface brokered with the University of Edinburgh in 2008, Sunamp has continued to develop their relationship with Professor Pulham and commenced a new relationship through Interface with Dr Tadhg O’Donovan, School of Engineering and Physical Sciences; Mechanical, Process and Energy Engineering at Heriot-Watt University. The value of the relationship between University of Edinburgh and Sunamp has supported career development and employment for post graduate and undergraduate students, a new area of research into phase change materials, leveraged several £100k of funding and facilitated access to facilities such as the Diamond Light Source UK facility. The collaborative partnership will be submitted as an Impact case study to the Research Excellence Framework (REF) 2021 highlighting the significant benefits that have been realised.
 

Professor Colin Pulham stated:

Follow on Projects

Under an Energy Technology Partnership ​(ETP) student agreement two significant discoveries in relation to Sunamp have been published. Professor Pulham now has a Sunamp focussed team working within the University and some of the collaborative projects have secured EPSRC Impact accelerator and Innovate UK funding. 

In 2014 Sunamp secured a Knowledge Transfer Partnership with Heriot- Watt University which aimed to integrate and optimise Heat Batteries with Solar Thermal and Solar Hybrid PV-T (Photovoltaic-Thermal) Panels to develop a competitive, on-demand heat supply solution for domestic households.

In April, 2016, Sunamp raised £3.2m for its sales and manufacturing function in its latest funding round led by an international private investor in the energy market.

“The global thermal energy storage market is expected to reach $1.8 billion by 2020 and we are excited about the potential of our product to solve a worldwide problem,” said Chief Executive, Andrew Bissell.

In August 2017 a consortia, which includes Professor Colin Pulham ​with Sunamp and Vantage Power, was awarded £250k from Innovate UK for a project that will look to develop a novel vehicle thermal management solution that addresses hybrid electric bus cabin warm up and thermal loads in stop/start and all electric modes.

In 2017, Sunamp and the University of Glasgow’s School of Engineering partnered on a £2 million project linked to clean power and heat generation from the China-UK Research and Innovation Bridges programme, a joint UK/China initiative under the Newton Fund, developing solutions for agri-food, energy, healthcare, and urbanisation.

Andrew Bissell from Sunamp and Prof Pulham from the University of Edinburgh’s School of Chemistry won the Powerful Partnership Award at the Scottish Knowledge Exchange Awards 2019. 

Sunamp signed a Memorandum of Understanding (MoU) with Chinese company Trina Solar, the world’s largest solar solutions company. Trina Solar aims to jointly address the 66m Chinese homes that are heated by coal, converting instead to solar PV-powered heat pumps backed up by energy storage in Sunamp heat batteries so heat is available whenever needed. The excellent performance, quality and stability of the PCM developed early in the University of Edinburgh/Sunamp partnership was foundational to Trina selecting to work with Sunamp. There is potential for very large orders benefiting Sunamp, University of Edinburgh, the inventors and the UK and Scottish economies, and also benefiting the environment via decarbonisation and improved air quality. 

The company also secured £2.2 million in funding from Japanese energy provider Osaka Gas.

Sunamp also signed a memorandum of understanding (MoU) with Jiangsu Gomon Renewable Energy Development Co which aims to create an “innovative and unique” heat pump water heater for household use. The partnership aims to develop an innovative and unique heat pump water heater for the residential market, using Gomon heat pumps and Sunamp high energy-density, high power-density Heat Batteries.

Watch the interview with Professor Pulham and Andrew Bissell here: 

Please note that Interface administers the Innovation Voucher Scheme on behalf of the Scottish Funding Council. All funding applications are reviewed on a case-by-case basis by the Scottish Funding Council, guidelines can be found here.

he Company

StudioLR is an award-winning design agency based in Leith, Edinburgh.

The Business Challenge

Dissatisfied with existing ‘way-finding’ products for dementia, and sensing an opportunity for a fresh and novel approach, the company wanted to access Scotland’s academic expertise to use the latest research to inform their design, ensuring an effective, as well as an attractive, finished product.

The Solution

After meeting at an industry event, Interface was able to identify extensive research expertise in the care of people with dementia at the universities of Edinburgh and Stirling, and introduced both universities to StudioLR.  After discussions with both universities, it was agreed that a collaborative approach to the project would be the best solution to provide the company with access to the most wide-ranging expertise.  A Scottish Funding Council Innovation Voucher, administered by Interface, was awarded to support this project.

Benefits

As a result of this successful business-academic collaboration, StudioLR developed a set of design guidelines for creating consistent signage to increase independence and wellbeing for older people and dementia patients in care homes, hospitals or other related environments.  Lucy Richards, Creative Director at StudioLR, said: 

“The collaborative process we have experienced working together with the universities of Edinburgh and Stirling on the Innovation Voucher has been both stimulating and fruitful, with exciting new thinking emerging throughout the process.  As the project builds in momentum, our purpose has become clearer and more worthwhile.”

Follow-on Activity

Following further brokerage services from Interface, StudioLR have been accepted into The Scottish Graduate School for Arts and Humanities (SGSAH) Doctoral Internship programme, which matches doctoral researchers with industry partners. The company are keen to establish research in the area of “impact and consequences of the use of complex language in everyday settings”, particularly in the Care system and across public services, i.e. in hospital and clinical settings.

The outputs from the researcher will be a report outlining key findings and recommendations on the unintended consequences and negative impact of the use of this language.

Please note that Interface administers the Innovation Voucher Scheme on behalf of the Scottish Funding Council. All funding applications are reviewed on a case by case basis by the Scottish Funding Council, guidelines can be found here.

React2 is a specialist software company based in Peebles, developing speech and language therapy rehabilitation tools for both adults and children suffering from brain injury and trauma.

Since 1998, the company has developed a suite of speech and language therapy (SLT) software called React, which has been a leading product for SLT, sold to therapists and private individuals throughout most English speaking countries.
 

The Business Challenge

React2 recognised the need to investigate, for the first time, the mechanisms underlying stroke patient recovery using computer assisted home therapy. This led to their Managing Director, Dean Turnbull, meeting with Dr Siobhán Jordan of Interface and the Knowledge Links team to investigate how the academic sector could support the development of the young business and to take forward the ideas of React2.

The Solution

The result has been a successful collaboration with SINAPSE, the Scottish university research pool for brain imaging. The research is being undertaken at the Brain Research Imaging Centre (BRIC), a member of the SINAPSE collaboration, at the Division of Clinical Neurosciences, University of Edinburgh at the Western General Hospital.

The project is investigating the patient recovery through leading edge functional Magnetic Resonance Imaging (fMRI). The academic alliance injected fresh, new approaches to the business and may lead to further developments of the React2 software, which contains a vast number of new exercises in an easy-to-use and up-to-date interface, and is a huge step forward in computer based therapy. The React2 development has combined the development skills of NHS speech and language therapists, as well as specialists from around the world.

PhD student and speech therapist, Anna Jones, who is leading the research, comments: “The results will assess the overall effectiveness of Speech and Language Therapy (SLT) and its long-term benefits. ‘React2’ could dramatically improve SLT for many stroke patients, allowing for more intensive therapy than is currently available.”

React2 sees the potential in e-health as the way forward for patient care.

Managing Director, Dean Turnbull, is thrilled by the collaboration: “This is the sort of research that we as a small company could never fund ourselves, but through Interface and SINAPSE, we are working with the foremost brain imaging specialists in the world. It’s fantastic.”

A 3 year studentship, part of the Knowledge Exchange in Translational Imaging grant funding from Scottish Funding Council to SINPASE, will take the research forward, and the next step of the project will investigate the long term mechanisms underlying stroke patient recovery using computer assisted home therapy and will investigate the patient recovery through leading edge fMRI imaging. This will involve the University of Edinburgh’s Brain Imaging Research Centre at the Western General Hospital’s Division of Clinical Neurosciences. Dean believes that this will result in significant business growth, with increased sales and new employment within the company.

“We are delighted that the collaboration between Propeller Media and University of Edinburgh, facilitated by Interface. Importantly, this relationship highlights how SME’s can benefit from expertise available”. Siobhan Jordan, Director of Interface