Infographic – how mobile apps have changed the world

I liked this infographic
So much is happening with mobile apps and this picture shows the scale

Source: How mobile apps have changed the world

How Mobile Apps Have Changed the World
Top Apps

Kickstarter project – Computer Science for your Child – successfully funded ..

Kickstarter project – Computer Science for your Child – successfully funded ..

160 backers – 10,760 raised – goal 9000

Many thanks for your support!


The new UK computer science syllabus and it’s impact

PS many thanks for your support for our Kickstarter Campaign Computer Science for your Child
We are almost there!
  • Here is more information about the problem we (Feynlabs) are trying to solve and why it matters
  • I spoke at the CAS conference on Friday last week and it was indeed very inspiring to meet teachers other s in the industry who are committed to encouraging Computer Science in UK schools.
  • Speaking at this event also gave me the chance to crystallise my own thinking about the exact problem we are trying to solve.
  • The challenge is huge
  • See the diagram below (source BAz Nijjar posted at CAS) which shows the depth of the new syllabus
  • There are a number of areas which are unknown ex:  The navigation of a steep learning curve by students and teachers, the introduction of computational thinking (ex algorithms), the evaluation of progress etc etc
  • PS although the diagram is based on the UK syllabus, I see other countries also following the same trend.












Why does this matter?

There is a significant shift from ICT to Computer Science. ICT involves using tools. Computer Science involves understanding how to build tools and their impact on other scientific domains

However, teaching Computer Science (and in our case for feynlabs, trying to accelerate the learning of Computer Science) involves combining the abstract concepts (algorithms, data structures etc) alongwith very concrete programming

An insightful article from a Stanford University researcher says ( Shuchi Grover – Learning to Code is not enough)


  •  Science itself is changing in a subtle but fundamental way--from the use of computing to support scientific work, to integrating Computer Science (CS) concepts and tools into the very fabric of science.
  •   The essence of computational thinking is in ‘thinking like a computer scientist’ when confronted with a problem. (logically, algorithmically, breaking down a problem)
  •  Block-based programming tools such as Scratch, Alice, Kodu, and web avenues like Khan Academy, Code Academy, and CodeHS (among others), place programming within easy reach of children today. Even 9 and 10 year-olds who tinker in these environments create artefacts and animations literally within minutes of starting out.
  • Computational thinking involves conceptualizing, not just coding and learning the syntax of a language, and it’s more about the ideas, not the artefacts. It is the thinking we employ to design solutions, not the end product or projects.
  • While children comfortably learn the WHAT (blocks or syntax) of programming languages and environments, the HOW and WHY is much harder as they construct programming solutions.

The problem we are trying to solve

  • In the kickstarter video, we speak of a three stage approach – Concept – Compute and Extrapolate.
  • The objective is to study a wide range of concrete implementations (Programming Languages) and also to abstract what is common amongst them so that the learner can master any programming language.
  • This is not a trivial task. It involves learning to code in specific environments (I love the Raspberry Pi because we can explore the entire stack) but then also extrapolating that knowledge to other languages . Ex R Language, Mathematica, C, Lua, Dog(yes its a real language!)
  • Think of it as driving a car
  • You can never drive a car conceptually i.e. you have to physically drive it ..
  • However, if you ALSO combined the concepts with insights from a broader range of vehicles you could potentially ‘drive’ (cars, trains, planes, space ships!) – you could learn the concepts in a very unique way. In theory, it would allow you learn to drive any vehicle – even one not yet invented
  • In a nutshell, that’s the problem we are trying to solve ..
  • It involves understanding the Computer Science syllabus but also looking far beyond the syllabus – into a new way to teach Computer science.
  • Its a way to learn Computer Science by combining the abstract and the concrete
  • For most people, it is easier to start with the concrete and then move to the abstract. By working with a range of platforms(programming languages) we can cover a wider variety of concepts – including Computational thinking and problem solving
  • Finally, the Raspberry Pi is an excellent platform for this goal since it allows us to explore the entire stack. But I also like Touch Develop.
  • So, its a case of balancing the abstract with the concrete and also accelerating the learning of Computer Science itself.
  • A challenge which we enjoy working with!!
  • PS – met some very interesting people who attended my sessions – for example )  Piface creator Andrew Robinson (


Image – NASA funzone – learning to drive a space ship

How to teach abstraction ..

from feynlabs

Abstraction is a key concept in Computer Science .. Here is how I have tried to explain abstraction in our trials Any comments welcome I have tried to use analogies, keep it simple but also move into complex areas

How to teach abstraction

The Mobile Data Scientist – my next book ..

As many of you know, I have been building my new start-up – feynlabs which is in the ed-tech space – a personal passion

I have also been focusing my mobile efforts in around Big Data

when I gave the keynote at the OMA event  on Big Data in Dublin last week, I mentioned my forthcoming book – and the focus of futuretext

I will be also elaborating these ideas in my talk at the Ovum Smart to future cities event  in a Smart cities context

In a nutshell, the ideas behind Big data originate in the Web .. but have some unique characteristics in the Mobile domain

So, the idea of the Mobile Data Scientist – is a paradigm which draws on the existing work in the Web domain for Big Data/Data Scientist but also applies unique mobile lessons

If you want to be interviewed for this book or have some unique insights – please email me at ajit.jaokar at 

Policy update May 2013











The summary this month has a theme – “and so it begins” ..

Many of the themes we have been following on the policy front now have clear implementations..

Before we begin, space a thought for this parent .. but on a more serious note, it shows how older style companies have to change rapidly (My Teenage Son Does Not Know How To Mail A Letter, And I Blame Technology)


Firstly, we have new business models for old media ..


And we have new policies for new domains ..


Media business models are crystallizing with new ideas

Mobile payment wars are hotting up

As is the rise of the Internet of Things



Finally many disruptive trends ..

Image source wikipedia flower symbol for may

kickstarter campaign – Computer Science for your child

Here is the link for our Kickstarter campaign – Computer Science for your Child 

Comments and feedback welcome


















Here is the link for our Kickstarter campaign - Computer Science for your Child 









on a panel for vote my link – European Parliament – women promoting technology

I am pleased to be on this panel tomorrow evening at the European Parliament

Mattie and Beverley – the two founders of Vote my link are doing a great job and I look forward to supporting their work