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Dr Aparajithan Sivanathan United Kingdom

Technology 1
Wearable Sensing
Herioit-Watt University
LinkedIn logo Research Associate 

Dr Gavin Smith United Kingdom

Technology 1
Many technologies
Lancaster University Business Enterprises Ltd
Director 

Miss Michelle Spillar United Kingdom

University of Exeter
Business Development Officer 

Mr Scott Sunderman United Kingdom

Healix International Ltd
Group CEO 

Jenny Tillotson United Kingdom

Technology 1
eScent wearable technology
Sensory Design & Technology
LinkedIn logo Founder of eScent 

Mr ian Tracey United Kingdom

KTN
LinkedIn logo A2FF 

Mr Andy Walker United Kingdom

McLaren Applied Technologies
Commercial Director 

Mrs Nicky Warnock United Kingdom

PraxisUnico
LinkedIn logo Project Manager 

Mr Peter Whale United Kingdom

Iotic Labs has created an Internet-like environment for things, called the Iotic Space. It’s a virtual on-line space where things (such as sensors, data feeds and applications) can interact with each other. Sensors, devices, remote equipment and everyday objects can share their data with each other in the Iotic Space. Data from anything can be shared or exchanged with anything else creating new relationships, insights and whole new ways to interact, securely. 

The Iotic Space is free from pre-defined formats, database structures and any other pre-determined model. Just like the Internet, you are free to interact with myriad data sources and mash data together with Iotic Mashapps. You might for instance be walking or driving down the street while your car or clothing is interacting with nearby sensors, picking up those in front and dropping off others behind.

Website:
www.iotic-labs.com
Iotic Labs Ltd
LinkedIn logo Director, Product Marketing 

Dr Matthew Wilcox United Kingdom

Technology 1
Physiologically Relevant Model Gut System: We are integrating a range of systems for modelling the gastro-intestinal processes of digestion, mucus permeation and intestinal absorption. This includes enzyme assays, in vitro upper gut model, mucus permeation assays and cell-uptake models. These systems provide in vitro alternatives to analyse delivery, functionality and uptake of nutrients, functional foods and pharmaceuticals. We are seeking demonstration projects with industry partners for the development of these models into a fully integrated model of digestion, mucus permeation and small intestinal uptake.
Newcastle University
Research Associate