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Tom Wright

Brighton, England United Kingdom

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Currently Fundraising Database Officer at Alzheimer's Research UK.

I'm about to finish my PhD and am looking for the next big challenge. For the last 4 years, I've been designing, programming and evaluating sensory substitution devices - gadgets for visually impaired people that convert images into sounds. In doing so, I learnt to code in Java (for Android) and C#.

I started programming in Excel when I was still in primary school. We had a PC for the family and I discovered that I could make macros in Excel. Within a week, I was making MessageBox() driven adventure games and insisting that my siblings play them. Pretty soon I found out that I could make web pages and even landed my first web design contract from the local preschool. Throughout upper school and 6th form I got a reputation for being the "only nerd in the village" and began to do home repairs and IT tuition.

During my undergraduate degree I launched a boutique web design studio with a friend. Since he is a designer, and I'm a programmer, we decided to call the business Binary Star. We had a few really interesting contracts, which helped me pay my way through my degree.

Along the way, I became involved with non-profits. I volunteered for the 10:10 climate change campaign as a social media coordinator. It was a fantastic opportunity to work with such a dynamic team. Later, I founded an online community radio station and became their Technical Director. In this role, I acted as sysadmin, programmer and helpdesk simultaneously.

Looking forward, I'd love to work with a team that are doing something challenging, cool, or just plain interesting. I'd be happy working in a 100% programming role, or in a client facing role, or in a managerial position (as long as I could flex my programming muscles occasionally).



Experience show all

Fundraising Database Officer, Alzheimer's Research UK

October 2013 - Current

Technical Partner, Binary Star Digital

2007 - 2009

At BSD I was responsible for overseeing our small team of freelance web developers as well as regularly getting stuck in.

We had a good few years that saw me through my degree and gave me an excellent insight into business administration.

Technical Director, Radio Free Brighton

January 2010

Radio Free Brighton is a community radio station based in Brighton on the south coast of England. We broadcast a mix of music (inc. live shows), news and discussion.

As technical director I oversee operations in the studio and online. I also take a personal interest in the development and maintenance of our broadcast and recording servers.

Social media coordinator, 10:10

August 2009 - December 2009

I originally volunteered to take on the promotion of the launch event, which took place at the beginning of September, but ended up staying on to develop a long term social media strategy.

Intern, Perfectly Happy People Ltd

June 2007 - September 2007

As an intern in an overstretched IT department at a large mail-order company, I got a surprisingly free rein. I was encouraged to look around for my own projects to pitch to the boss.

These projects including redesigning the website (resulting in a 50% reduction in the bounce rate) and a program that automatically suggested pricing adjustments on sites such as Amazon.

Education show all

PhD in Sensory Stubstitution, University of Sussex

2009 - 2013

As well as completing my PhD, I am fortunate enough to have had a couple of papers published in scientific journals. For example:

I have also enjoyed the opportunity to teach both undergraduates and my postgraduate peers. I have:

  • Taught on a 1st year course called "Psychobiology", where we discussed topics such as models of learning, addiction and evolutionary psychology.
  • Developed and delivered a series of training events for other tutors whilst I held the role of "associate tutor rep".
  • Convened, designed and delivered a course called "Matlab for experimental psychologists", which will likely run again in 2013/14.

BSc Cognitive Neuroscience, University of Sussex

2006 - 2009

I graduated from Sussex in 2009 with a 1st Class Honours degree in Cognitive Neuroscience.

This course was perfect for me, as it combined the biology of the brain, with psychology, philosophy and even a little bit of computer science.

During my time at Sussex I was also heavily involved with the digital aspects of student media. In 2008 I was awarded the "Innovation of the year" award for an event calendar project. In 2009 I was honoured to receive an award recognising my "Overall contribution to student media".

Stack Exchange show all Last seen yesterday

Open Source (6) show all


GitHub, Oct 2012 - Aug 2013

Ployglot Framework for Sensory Substitution Devices

Architect and lead (read: sole) programmer


GitHub, Mar 2012; followed by 2 people

Round Robin Queue for .NET


GitHub, Aug 2012 - Oct 2012; followed by 2 people

NAudio (C#) class for generating localised tones


GitHub, Oct 2012 - Aug 2013

Android app which makes devices into haptic touchpads


GitHub, Feb 2012

Provides the necessary elements to create an HSV colour picker in C#


GitHub, May 2012; followed by 2 people

Detect and linkify boshtags on Twitter

1 more

Writing show all

The evolution of a visual-to-auditory sensory substitution device using interactive genetic algorithms

The Quarterly Journal of Experimental Psychology - Taylor and Francis

Sensory substitution is a promising technique for mitigating the loss of a sensory modality. Sensory substitution devices (SSDs) work by converting information from the impaired sense (e.g., vision) into another, intact sense (e.g., audition). However, there are a potentially infinite number of ways of converting images into sounds, and it is important that the conversion takes into account the limits of human perception and other user-related factors (e.g., whether the sounds are pleasant to listen to). The device explored here is termed “polyglot” because it generates a very large set of solutions. Specifically, we adapt a procedure that has been in widespread use in the design of technology but has rarely been used as a tool to explore perception—namely, interactive genetic algorithms. In this procedure, a very large range of potential sensory substitution devices can be explored by creating a set of “genes” with different allelic variants (e.g., different ways of translating luminance into loudness). The most successful devices are then “bred” together, and we statistically explore the characteristics of the selected-for traits after multiple generations. The aim of the present study is to produce design guidelines for a better SSD. In three experiments, we vary the way that the fitness of the device is computed: by asking the user to rate the auditory aesthetics of different devices (Experiment 1), and by measuring the ability of participants to match sounds to images (Experiment 2) and the ability to perceptually discriminate between two sounds derived from similar images (Experiment 3). In each case, the traits selected for by the genetic algorithm represent the ideal SSD for that task. Taken together, these traits can guide the design of a better SSD.

Sensory substitution as an artificially acquired synaesthesia

Neuroscience & Biobehavioral Reviews - Elsevier

In this review we explore the relationship between synaesthesia and sensory substitution and argue that sensory substitution does indeed show properties of synaesthesia. Both are associated with atypical perceptual experiences elicited by the processing of a qualitatively different stimulus to that which normally gives rise to that experience. In the most common forms of sensory substitution, perceptual processing of an auditory or tactile signal (which has been converted from a visual signal) is experienced as visual-like in addition to retaining auditory/tactile characteristics. We consider different lines of evidence that support, to varying degrees, the assumption that sensory substitution is associated with visual-like experiences. We then go on to analyse the key similarities and differences between sensory substitution and synaesthesia. Lastly, we propose two testable predictions: firstly that, in an expert user of a sensory substitution device, the substituting modality should not be lost. Secondly that stimulation within the substituting modality, but by means other than a sensory substitution device, should still produce sensation in the normally substituted modality.


PC (Windows 95)

Notepad++ or Visual Studio 2010