From e69557c68aba9a22b6d62c7c02ebb5b5a034b762 Mon Sep 17 00:00:00 2001
From: GeorgiaHCA <gaitkenhead@turing.ac.uk>
Date: Tue, 13 Aug 2019 16:07:07 +0100
Subject: [PATCH 01/17] Create 2018-08-13-Introducing....md

Adding this again so people can review it!
---
 _posts/2018-08-13-Introducing....md | 96 +++++++++++++++++++++++++++++
 1 file changed, 96 insertions(+)
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diff --git a/_posts/2018-08-13-Introducing....md b/_posts/2018-08-13-Introducing....md
new file mode 100644
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--- /dev/null
+++ b/_posts/2018-08-13-Introducing....md
@@ -0,0 +1,96 @@
+---
+layout: post
+title: ### Introducing...
+categories: blog
+excerpt: ### blog introducing three people from Kirstie's lab 
+tags: [] ### INSERT TAGS IF APPLICABLE
+image:
+  feature:
+link: 
+date: 2019-08-13 ### UPDATE date
+modified:
+share: true
+author: GeorgiaHCA ###
+---
+
+:tada: :star2: :rocket: Introducing three of my stellar Turing colleagues... 
+
+## :star: Sarah Gibson :star: 
+
+#### "Tell me about your background"
+
+For her PhD in Astrophysics, Sarah worked on a NASA (:heart_eyes:!!) project called Swift hunting down gamma ray bursts. Gamma ray bursts are very brief flashes of high energy radiation, and it’s difficult to predict when and where they will go off. 
+
+Gamma ray bursts form in two ways: when young massive stars go supernova, or two neutron stars merge together. The first produces gamma ray bursts which are long in time duration because they have a lot of matter. They happen in very early galaxies and are very bright, and studying them tells us a lot about the first galaxies that were formed after the Big Bang. Many galaxies may not be bright enough to see without these gamma rays, so studying them can help us discover new galaxies, as well as telling us the composition of stuff between us and the burst - e.g. what our galaxy is made of, what the galaxy the burst happened in is made of, and what the stuff in between is made of.
+
+Dead stars that merge are much older:  you need to have time for two stars to die and then spiral into one another. Studying the gamma rays which neutron stars emit can tell us how often we can expect stars to die and how often collisions occur when stars are orbiting each other.
+
+NASA uses an autonomous satellite which can react rapidly and make decisions without a controller, and Sarah used Monte Carlo methods to optimise her model to the data. She also spent a month in Namibia where there’s an on-ground telescope, looking at gamma rays emitted from black holes at the centre of our galaxy. We can use this information to learn more about how standard the Milky Way is compared to other galaxies.
+
+#### “Tell me about your research at the Turing”
+
+Sarah’s official job title at the Turing is “Research Data Scientist”. There are two distinct roles, data scientist and software engineer, which are often seen as a binary, but the Turing treats them as a spectrum, and Sarah floats between the two. 
+
+As a data scientist, her job is analytical, and involves things like cleaning data sets, chosing the right methods to answer particular research questions, and creating data visualisations. As a software engineer, her work involves building tools, and following best practices when using code to answer questions. She says that it’s very important to remember that code is not infallible, a human has to create it and we are subject to our own biases and opinions that might be transferred.
+
+If you don’t follow best practice, you run the risk of creating unreproducible code, or code that doesn’t do what you think it’s doing. There is the risk of the code producing an answer or output that that isn’t obviously wrong but is still wrong, and this is a real issue if there’s no transparency and no-one can interrogate it.
+
+Sarah is involved in creating The Turing Way. This was originally a guide for doing reproducible data science; but it is evolving into a more general guide. She has been linking up with the Binder community, as they have a great tool for sharing code and data very easily. Binder is a solution to being able to test whether you can get the same results from the same data: this could be by using mybinder.org which is completely public, or by installing your own binder hub and enabling it to work with a private repository. 
+
+#### “What’s your ideal outcome of your time at the Turing?”
+
+Sarah finds that the Turing gives her the opportunity to work in a lot of different domains and projects. Her ideal outcome would be that through the Turing she can “find my groove” as well as the domain that she is best at and appeals to her most. She’s proud to work with the Binder community and has been asked to be a long-term contributor - anything she could do to contribute to the community and push technology forward would make her very proud. 
+
+Sarah also wants to learn to do all of the cool things - every day is a different challenge, and it’s nice to have space to learn things properly!
+
+#### “How are you finding the Turing?”
+
+“Amazing! It’s a really supportive environment, and the ethos is much more about collaboration than competition. People are not too possessive over their work. It’s nice to be able to share knowledge and get to a good solution together.”
+
+## :star: Ang Li :star: 
+
+#### “Tell me about your background”
+
+Ang is currently a PhD student. His college major was in engineering, specialising in space flight. He studied in the Northeast of China in the Heliongjiang Province at the University of Harbin. Ang was born in a very small city. At first, he didn’t know that much about engineering, but he was told that it was very lucrative! When he started studying, however, he found that he was not so interested in engineering and switched to brain science. He is very interested in the biology of the brain.
+
+#### “Tell me about your research at the Turing”
+
+Ang is interested in mental disorders, especially schizophrenia, and developing clinically useful biomarkers to help psychiatrists by using genomic or neuroimaging data. Ang would also like to use genomic data to understand the pathology of schizophrenia. The pathology itself is complex, but it is a very important area to understand, and many answers emerge from examining the genome. The other part of Ang’s research is about understanding the concept of human consciousness. Ang is also interested in neurodevelopment, using neuroimaging data to help understand the emergence and pathologies of some mental disorders– this could be used to predict why adolescents might have mental health challenges.
+
+#### “What’s your ideal outcome of your time at the Turing?”
+
+Ang would like to learn about reproducible research from Kirstie. His area normally deals with many different types of data, for instance genome data, gene expression and MRI (magnetic resonance imaging) data. As the real real-world questions, especially in brain science, are always complex, expertise from a lot of different domains is required to answer them: psychology, psychiatry, genomic science, mathematics and even physics. Ang believes that a diverse community of people from different specialisms is a necessary to answer some important scientific question. And it could be useful to cooperate by linking their ideas closely along with some uniform code.
+
+#### “How are you finding the Turing?”
+
+“I love the working environment of the Turing, it’s different from my Chinese lab and I have more free space – I can work in a different place every day. Also, the Turing has the great advantage that we can meet people with diverse backgrounds and fields.”
+
+## :star: Yini He :star: 
+
+#### “Tell me about your background” 
+
+Yini majored in psychology and is currently doing a PhD in neuroimaging. She changed her subject because during the last year of her undergraduate degree she started to be an intern teacher in a special school, and a lot of students had mental health challenges such as depression, bipolar disorder, and schizophrenia. Yini found her time teaching them an amazing experience. She enjoyed their creativity and talking to them, and she wanted to do things to help them and to change their lives for the better. She couldn’t find a perfect way to do that within education and psychology, so she decided to change her field. She started working in a hospital - Xiangya – which is very famous hospital in China – and met people there. She realised she would like to know about adolescents, and to research if it would be possible to screen vulnerability to mental health issues, and maybe use the screening to find ways to make people’s lives better in the future. 
+
+#### “Tell me about your research at the Turing”
+
+Yini’s research interests at the Turing divides into three stems:
+
+1. Finding out how personality types relate to mental health differences: using questionnaires and scales to scope out people’s personalities or individual traits and then building a model to predict mental health issues when that person is under stress, compared to when they’re not.
+2. Finding out how neuroimaging can be used to predict mental health differences: investigating what are the biomarkers or the brain regions which suggest different mental states.
+3. Investigating the relationship between the personality, the brain, and mental health. Yini wants to find relationships between the personality and the brain, and how both of them could influence human behaviour and susceptibility to certain types of mental health issues. 
+
+Personality and the brain may be combined to influence behaviour. In research, Yini collects images of different people’s brains and data about their behaviour, and uses longitudinal data to examine these under different stress conditions to see how the brain and personality will influence mental health. Collecting data over multiple points in time is important, as it helps to discern causes from correlations. 
+
+#### “What’s your ideal outcome of your time at the Turing?”
+
+Yini is very interested in open science, which is new to her but which she thinks is a very good and clean way of doing research. She wants to study Kirstie’s way of doing research and learn from her. She also wants to improve her skills in coding and work with other people who can help her. She can learn from Kirstie, who is a very supportive supervisor, and she’s also happy to find peers and friends to learn new things with. For Yini, teamwork is very important, and at the Turing she can find good team members and support to help answer meaningful questions – which is her ideal outcome.
+
+#### “How are you finding the Turing?”
+
+“I think my major and interests involve very complex questions, based on a lot of different kinds of knowledge such as neuroimaging, computer programming, and biology, so I would like to communicate with people from different fields, and coming to the Turing I’ve met a lot of amazing people, so it’s very interesting.”
+
+### <em> Fun Extra Fact </em> 
+
+<em> I found out that Yini and I share a nickname – her friends call her the same Chinese name I was given when I worked in Beijing – Hwa Hwa – which means flower! So we have a special connection. </em> :cherry_blossom::cherry_blossom:
+
+:octocat: Superstellar thank you to Sarah, Ang, and Yini for giving me their time and patiently answering my questions. I'm so excited to be working with you all! :octocat:

From 578368db2f515b1c35685401e859c8aaaf9173f4 Mon Sep 17 00:00:00 2001
From: GeorgiaHCA <gaitkenhead@turing.ac.uk>
Date: Thu, 15 Aug 2019 12:04:11 +0100
Subject: [PATCH 02/17] Update _posts/2018-08-13-Introducing....md

Co-Authored-By: Sarah Gibson <44771837+sgibson91@users.noreply.github.com>
---
 _posts/2018-08-13-Introducing....md | 2 +-
 1 file changed, 1 insertion(+), 1 deletion(-)

diff --git a/_posts/2018-08-13-Introducing....md b/_posts/2018-08-13-Introducing....md
index 1fea8c84..924acbf8 100644
--- a/_posts/2018-08-13-Introducing....md
+++ b/_posts/2018-08-13-Introducing....md
@@ -21,7 +21,7 @@ author: GeorgiaHCA ###
 
 For her PhD in Astrophysics, Sarah worked on a NASA (:heart_eyes:!!) project called Swift hunting down gamma ray bursts. Gamma ray bursts are very brief flashes of high energy radiation, and it’s difficult to predict when and where they will go off. 
 
-Gamma ray bursts form in two ways: when young massive stars go supernova, or two neutron stars merge together. The first produces gamma ray bursts which are long in time duration because they have a lot of matter. They happen in very early galaxies and are very bright, and studying them tells us a lot about the first galaxies that were formed after the Big Bang. Many galaxies may not be bright enough to see without these gamma rays, so studying them can help us discover new galaxies, as well as telling us the composition of stuff between us and the burst - e.g. what our galaxy is made of, what the galaxy the burst happened in is made of, and what the stuff in between is made of.
+Gamma ray bursts form in two ways: when young massive stars go supernova, or two neutron stars merge together. The first produces gamma ray bursts which are long in time duration because they have a lot of matter. They happen in very early galaxies and are very bright, and studying them tells us a lot about the first galaxies that were formed after the Big Bang. Many galaxies may not be bright enough to see without these gamma rays, so studying them can help us discover new galaxies, as well as telling us the composition of stuff between us and the burst - e.g. what our Galaxy is made of, what the galaxy the burst happened in is made of, and what the stuff in between is made of.
 
 Dead stars that merge are much older:  you need to have time for two stars to die and then spiral into one another. Studying the gamma rays which neutron stars emit can tell us how often we can expect stars to die and how often collisions occur when stars are orbiting each other.
 

From 13a89a2ef27e4f3f8fcc111080ad7fbd20b8e40d Mon Sep 17 00:00:00 2001
From: GeorgiaHCA <gaitkenhead@turing.ac.uk>
Date: Thu, 15 Aug 2019 12:04:36 +0100
Subject: [PATCH 03/17] Update _posts/2018-08-13-Introducing....md

Co-Authored-By: Sarah Gibson <44771837+sgibson91@users.noreply.github.com>
---
 _posts/2018-08-13-Introducing....md | 2 +-
 1 file changed, 1 insertion(+), 1 deletion(-)

diff --git a/_posts/2018-08-13-Introducing....md b/_posts/2018-08-13-Introducing....md
index 924acbf8..ff014d8e 100644
--- a/_posts/2018-08-13-Introducing....md
+++ b/_posts/2018-08-13-Introducing....md
@@ -25,7 +25,7 @@ Gamma ray bursts form in two ways: when young massive stars go supernova, or two
 
 Dead stars that merge are much older:  you need to have time for two stars to die and then spiral into one another. Studying the gamma rays which neutron stars emit can tell us how often we can expect stars to die and how often collisions occur when stars are orbiting each other.
 
-NASA uses an autonomous satellite which can react rapidly and make decisions without a controller, and Sarah used Monte Carlo methods to optimise her model to the data. She also spent a month in Namibia where there’s an on-ground telescope, looking at gamma rays emitted from black holes at the centre of our galaxy. We can use this information to learn more about how standard the Milky Way is compared to other galaxies.
+NASA uses an autonomous satellite which can react rapidly and make decisions without a controller, and Sarah used Monte Carlo methods to optimise her model to the data collected by this satellite. She also spent a month in Namibia where there’s an on-ground telescope, looking at gamma rays emitted from black holes at the centre of our Galaxy. We can use this information to learn more about how standard the Milky Way is compared to other galaxies.
 
 #### “Tell me about your research at the Turing”
 

From cd8b7f81bae4bb5482a5ab19fb5a206c875077df Mon Sep 17 00:00:00 2001
From: GeorgiaHCA <gaitkenhead@turing.ac.uk>
Date: Thu, 15 Aug 2019 12:04:53 +0100
Subject: [PATCH 04/17] Update _posts/2018-08-13-Introducing....md

Co-Authored-By: Sarah Gibson <44771837+sgibson91@users.noreply.github.com>
---
 _posts/2018-08-13-Introducing....md | 2 +-
 1 file changed, 1 insertion(+), 1 deletion(-)

diff --git a/_posts/2018-08-13-Introducing....md b/_posts/2018-08-13-Introducing....md
index ff014d8e..729fa672 100644
--- a/_posts/2018-08-13-Introducing....md
+++ b/_posts/2018-08-13-Introducing....md
@@ -31,7 +31,7 @@ NASA uses an autonomous satellite which can react rapidly and make decisions wit
 
 Sarah’s official job title at the Turing is “Research Data Scientist”. There are two distinct roles, data scientist and software engineer, which are often seen as a binary, but the Turing treats them as a spectrum, and Sarah floats between the two. 
 
-As a data scientist, her job is analytical, and involves things like cleaning data sets, chosing the right methods to answer particular research questions, and creating data visualisations. As a software engineer, her work involves building tools, and following best practices when using code to answer questions. She says that it’s very important to remember that code is not infallible, a human has to create it and we are subject to our own biases and opinions that might be transferred.
+As a data scientist, her job is analytical, and involves things like cleaning data sets, choosing the right methods to answer particular research questions, and creating data visualisations. As a software engineer, her work involves building tools, and following best practices when using code to answer questions. She says that it’s very important to remember that code is not infallible, a human has to create it and we are subject to our own biases and opinions that might be transferred.
 
 If you don’t follow best practice, you run the risk of creating unreproducible code, or code that doesn’t do what you think it’s doing. There is the risk of the code producing an answer or output that that isn’t obviously wrong but is still wrong, and this is a real issue if there’s no transparency and no-one can interrogate it.
 

From 3264185221563c9e6713439d8457f924223231b2 Mon Sep 17 00:00:00 2001
From: GeorgiaHCA <gaitkenhead@turing.ac.uk>
Date: Thu, 15 Aug 2019 12:05:26 +0100
Subject: [PATCH 05/17] Update _posts/2018-08-13-Introducing....md

Co-Authored-By: Sarah Gibson <44771837+sgibson91@users.noreply.github.com>
---
 _posts/2018-08-13-Introducing....md | 2 +-
 1 file changed, 1 insertion(+), 1 deletion(-)

diff --git a/_posts/2018-08-13-Introducing....md b/_posts/2018-08-13-Introducing....md
index 729fa672..bdc10928 100644
--- a/_posts/2018-08-13-Introducing....md
+++ b/_posts/2018-08-13-Introducing....md
@@ -35,7 +35,7 @@ As a data scientist, her job is analytical, and involves things like cleaning da
 
 If you don’t follow best practice, you run the risk of creating unreproducible code, or code that doesn’t do what you think it’s doing. There is the risk of the code producing an answer or output that that isn’t obviously wrong but is still wrong, and this is a real issue if there’s no transparency and no-one can interrogate it.
 
-Sarah is involved in creating The Turing Way. This was originally a guide for doing reproducible data science; but it is evolving into a more general guide. She has been linking up with the Binder community, as they have a great tool for sharing code and data very easily. Binder is a solution to being able to test whether you can get the same results from the same data: this could be by using mybinder.org which is completely public, or by installing your own binder hub and enabling it to work with a private repository. 
+Sarah is involved in creating [_The Turing Way_](https://github.com/alan-turing-institute/the-turing-way). This was originally a guide for doing reproducible data science; but it is evolving into a more general guide. She has been linking up with the [Binder](https://mybinder.readthedocs.io/en/latest/) community, as they have a great tool for sharing code and data very easily. Binder is a solution to being able to test whether you can get the same results from the same data: this could be by using [mybinder.org](https://mybinder.org) which is completely public, or by installing your own [BinderHub](https://binderhub.readthedocs.io/en/latest/) and enabling it to work with a private repository. 
 
 #### “What’s your ideal outcome of your time at the Turing?”
 

From d39b67989618f7c0a2c3d16a420f1926d7c0bec8 Mon Sep 17 00:00:00 2001
From: GeorgiaHCA <gaitkenhead@turing.ac.uk>
Date: Thu, 15 Aug 2019 12:06:45 +0100
Subject: [PATCH 06/17] Update _posts/2018-08-13-Introducing....md

Co-Authored-By: Sarah Gibson <44771837+sgibson91@users.noreply.github.com>
---
 _posts/2018-08-13-Introducing....md | 2 +-
 1 file changed, 1 insertion(+), 1 deletion(-)

diff --git a/_posts/2018-08-13-Introducing....md b/_posts/2018-08-13-Introducing....md
index bdc10928..6b6f9f40 100644
--- a/_posts/2018-08-13-Introducing....md
+++ b/_posts/2018-08-13-Introducing....md
@@ -39,7 +39,7 @@ Sarah is involved in creating [_The Turing Way_](https://github.com/alan-turing-
 
 #### “What’s your ideal outcome of your time at the Turing?”
 
-Sarah finds that the Turing gives her the opportunity to work in a lot of different domains and projects. Her ideal outcome would be that through the Turing she can “find my groove” as well as the domain that she is best at and appeals to her most. She’s proud to work with the Binder community and has been asked to be a long-term contributor - anything she could do to contribute to the community and push technology forward would make her very proud. 
+Sarah finds that the Turing gives her the opportunity to work in a lot of different domains and projects. Her ideal outcome would be that through the Turing she can “find her groove” as well as the domain that she is best at and appeals to her most. She’s proud to work with the Binder community and has been asked to be a long-term contributor - anything she could do to contribute to the community and push technology forward would make her very proud. 
 
 Sarah also wants to learn to do all of the cool things - every day is a different challenge, and it’s nice to have space to learn things properly!
 

From 5f9c533e39a681e9b6ff49f040340ae899d6e085 Mon Sep 17 00:00:00 2001
From: GeorgiaHCA <gaitkenhead@turing.ac.uk>
Date: Thu, 15 Aug 2019 12:18:06 +0100
Subject: [PATCH 07/17] Update 2018-08-13-Introducing....md

Made reviewers suggestions and gave each sentence its own line. Thanks for helping everyone :-)
---
 _posts/2018-08-13-Introducing....md | 82 ++++++++++++++++++++++-------
 1 file changed, 64 insertions(+), 18 deletions(-)

diff --git a/_posts/2018-08-13-Introducing....md b/_posts/2018-08-13-Introducing....md
index 6b6f9f40..6ecd09fa 100644
--- a/_posts/2018-08-13-Introducing....md
+++ b/_posts/2018-08-13-Introducing....md
@@ -19,57 +19,96 @@ author: GeorgiaHCA ###
 
 #### "Tell me about your background"
 
-For her PhD in Astrophysics, Sarah worked on a NASA (:heart_eyes:!!) project called Swift hunting down gamma ray bursts. Gamma ray bursts are very brief flashes of high energy radiation, and it’s difficult to predict when and where they will go off. 
+For her PhD in Astrophysics, Sarah worked on a NASA (:heart_eyes:!!) project called Swift hunting down gamma ray bursts. 
+Gamma ray bursts are very brief flashes of high energy radiation, and it’s difficult to predict when and where they will go off. 
 
-Gamma ray bursts form in two ways: when young massive stars go supernova, or two neutron stars merge together. The first produces gamma ray bursts which are long in time duration because they have a lot of matter. They happen in very early galaxies and are very bright, and studying them tells us a lot about the first galaxies that were formed after the Big Bang. Many galaxies may not be bright enough to see without these gamma rays, so studying them can help us discover new galaxies, as well as telling us the composition of stuff between us and the burst - e.g. what our Galaxy is made of, what the galaxy the burst happened in is made of, and what the stuff in between is made of.
+Gamma ray bursts form in two ways: when young massive stars go supernova, or two neutron stars merge together. 
+The first produces gamma ray bursts which are long in time duration because they have a lot of matter. 
+They happen in very early galaxies and are very bright, and studying them tells us a lot about the first galaxies that were formed after the Big Bang. Many galaxies may not be bright enough to see without these gamma rays, so studying them can help us discover new galaxies, as well as telling us the composition of stuff between us and the burst - e.g. what our Galaxy is made of, what the galaxy the burst happened in is made of, and what the stuff in between is made of.
 
-Dead stars that merge are much older:  you need to have time for two stars to die and then spiral into one another. Studying the gamma rays which neutron stars emit can tell us how often we can expect stars to die and how often collisions occur when stars are orbiting each other.
+Dead stars that merge are much older:  you need to have time for two stars to die and then spiral into one another. 
+Studying the gamma rays which neutron stars emit can tell us how often we can expect stars to die and how often collisions occur when stars are orbiting each other.
 
-NASA uses an autonomous satellite which can react rapidly and make decisions without a controller, and Sarah used Monte Carlo methods to optimise her model to the data collected by this satellite. She also spent a month in Namibia where there’s an on-ground telescope, looking at gamma rays emitted from black holes at the centre of our Galaxy. We can use this information to learn more about how standard the Milky Way is compared to other galaxies.
+NASA uses an autonomous satellite which can react rapidly and make decisions without a controller, and Sarah used Monte Carlo methods to optimise her model to the data collected by this satellite. 
+She also spent a month in Namibia where there’s an on-ground telescope, looking at gamma rays emitted from black holes at the centre of our Galaxy. 
+We can use this information to learn more about how standard the Milky Way is compared to other galaxies.
 
 #### “Tell me about your research at the Turing”
 
-Sarah’s official job title at the Turing is “Research Data Scientist”. There are two distinct roles, data scientist and software engineer, which are often seen as a binary, but the Turing treats them as a spectrum, and Sarah floats between the two. 
+Sarah’s official job title at the Turing is “Research Data Scientist”. 
+There are two distinct roles, data scientist and software engineer, which are often seen as a binary, but the Turing treats them as a spectrum, and Sarah floats between the two. 
 
-As a data scientist, her job is analytical, and involves things like cleaning data sets, choosing the right methods to answer particular research questions, and creating data visualisations. As a software engineer, her work involves building tools, and following best practices when using code to answer questions. She says that it’s very important to remember that code is not infallible, a human has to create it and we are subject to our own biases and opinions that might be transferred.
+As a data scientist, her job is analytical, and involves things like cleaning data sets, choosing the right methods to answer particular research questions, and creating data visualisations. 
+As a software engineer, her work involves building tools, and following best practices when using code to answer questions.
+She says that it’s very important to remember that code is not infallible, a human has to create it and we are subject to our own biases and opinions that might be transferred.
 
-If you don’t follow best practice, you run the risk of creating unreproducible code, or code that doesn’t do what you think it’s doing. There is the risk of the code producing an answer or output that that isn’t obviously wrong but is still wrong, and this is a real issue if there’s no transparency and no-one can interrogate it.
+If you don’t follow best practice, you run the risk of creating unreproducible code, or code that doesn’t do what you think it’s doing. 
+There is the risk of the code producing an answer or output that that isn’t obviously wrong but is still wrong, and this is a real issue if there’s no transparency and no-one can interrogate it.
 
-Sarah is involved in creating [_The Turing Way_](https://github.com/alan-turing-institute/the-turing-way). This was originally a guide for doing reproducible data science; but it is evolving into a more general guide. She has been linking up with the [Binder](https://mybinder.readthedocs.io/en/latest/) community, as they have a great tool for sharing code and data very easily. Binder is a solution to being able to test whether you can get the same results from the same data: this could be by using [mybinder.org](https://mybinder.org) which is completely public, or by installing your own [BinderHub](https://binderhub.readthedocs.io/en/latest/) and enabling it to work with a private repository. 
+Sarah is involved in creating [_The Turing Way_](https://github.com/alan-turing-institute/the-turing-way). 
+This was originally a guide for doing reproducible data science; but it is evolving into a more general guide. 
+She has been linking up with the [Binder](https://mybinder.readthedocs.io/en/latest/) community, as they have a great tool for sharing code and data very easily. 
+Binder is a solution to being able to test whether you can get the same results from the same data: this could be by using [mybinder.org](https://mybinder.org) which is completely public, or by installing your own [BinderHub](https://binderhub.readthedocs.io/en/latest/) and enabling it to work with a private repository. 
 
 #### “What’s your ideal outcome of your time at the Turing?”
 
-Sarah finds that the Turing gives her the opportunity to work in a lot of different domains and projects. Her ideal outcome would be that through the Turing she can “find her groove” as well as the domain that she is best at and appeals to her most. She’s proud to work with the Binder community and has been asked to be a long-term contributor - anything she could do to contribute to the community and push technology forward would make her very proud. 
+Sarah finds that the Turing gives her the opportunity to work in a lot of different domains and projects. 
+Her ideal outcome would be that through the Turing she can “find her groove” as well as the domain that she is best at and appeals to her most. 
+She’s proud to work with the Binder community and has been asked to be a long-term contributor - anything she could do to contribute to the community and push technology forward would make her very proud. 
 
 Sarah also wants to learn to do all of the cool things - every day is a different challenge, and it’s nice to have space to learn things properly!
 
 #### “How are you finding the Turing?”
 
-“Amazing! It’s a really supportive environment, and the ethos is much more about collaboration than competition. People are not too possessive over their work. It’s nice to be able to share knowledge and get to a good solution together.”
+“Amazing! 
+It’s a really supportive environment, and the ethos is much more about collaboration than competition. 
+People are not too possessive over their work. 
+It’s nice to be able to share knowledge and get to a good solution together.”
 
 ## :star: Ang Li :star: 
 
 #### “Tell me about your background”
 
-Ang is currently a PhD student. His college major was in engineering, specialising in space flight. He studied in the Northeast of China in the Heliongjiang Province at the University of Harbin. Ang was born in a very small city. At first, he didn’t know that much about engineering, but he was told that it was very lucrative! When he started studying, however, he found that he was not so interested in engineering and switched to brain science. He is very interested in the biology of the brain.
+Ang is currently a PhD student. 
+His college major was in engineering, specialising in space flight. 
+He studied in the Northeast of China in the Heilongjiang Province at the Harbin Institute of Technology. 
+Ang was born in a very small city. 
+At first, he didn’t know that much about engineering, but he was told that it was very lucrative! 
+When he started studying, however, he found that he was not so interested in engineering and switched to brain science. 
+He is very interested in the biology of the brain.
 
 #### “Tell me about your research at the Turing”
 
-Ang is interested in mental disorders, especially schizophrenia, and developing clinically useful biomarkers to help psychiatrists by using genomic or neuroimaging data. Ang would also like to use genomic data to understand the pathology of schizophrenia. The pathology itself is complex, but it is a very important area to understand, and many answers emerge from examining the genome. The other part of Ang’s research is about understanding the concept of human consciousness. Ang is also interested in neurodevelopment, using neuroimaging data to help understand the emergence and pathologies of some mental disorders– this could be used to predict why adolescents might have mental health challenges.
+Ang is interested in mental disorders, especially schizophrenia, and developing clinically useful biomarkers to help psychiatrists by using genomic or neuroimaging data. 
+Ang would also like to use genomic data to understand the pathology of schizophrenia. 
+The pathology itself is complex, but it is a very important area to understand, and many answers emerge from examining the genome. 
+The other part of Ang’s research is about understanding the concept of human consciousness. 
+Ang is also interested in neurodevelopment, using neuroimaging data to help understand the emergence and pathologies of some mental disorders– this could be used to predict why adolescents might have mental health challenges.
 
 #### “What’s your ideal outcome of your time at the Turing?”
 
-Ang would like to learn about reproducible research from Kirstie. His area normally deals with many different types of data, for instance genome data, gene expression and MRI (magnetic resonance imaging) data. As the real real-world questions, especially in brain science, are always complex, expertise from a lot of different domains is required to answer them: psychology, psychiatry, genomic science, mathematics and even physics. Ang believes that a diverse community of people from different specialisms is a necessary to answer some important scientific question. And it could be useful to cooperate by linking their ideas closely along with some uniform code.
+Ang would like to learn about reproducible research from Kirstie. His area normally deals with many different types of data, for instance genome data, gene expression and MRI (magnetic resonance imaging) data. 
+As the real real-world questions, especially in brain science, are always complex, expertise from a lot of different domains is required to answer them: psychology, psychiatry, genomic science, mathematics and even physics. 
+Ang believes that a diverse community of people from different specialisms is a necessary to answer some important scientific question. 
+And it could be useful to cooperate by linking their ideas closely along with some uniform code.
 
 #### “How are you finding the Turing?”
 
-“I love the working environment of the Turing, it’s different from my Chinese lab and I have more free space – I can work in a different place every day. Also, the Turing has the great advantage that we can meet people with diverse backgrounds and fields.”
+“I love the working environment of the Turing, it’s different from my Chinese lab and I have more free space – I can work in a different place every day. 
+Also, the Turing has the great advantage that we can meet people with diverse backgrounds and fields.”
 
 ## :star: Yini He :star: 
 
 #### “Tell me about your background” 
 
-Yini majored in psychology and is currently doing a PhD in neuroimaging. She changed her subject because during the last year of her undergraduate degree she started to be an intern teacher in a special school, and a lot of students had mental health challenges such as depression, bipolar disorder, and schizophrenia. Yini found her time teaching them an amazing experience. She enjoyed their creativity and talking to them, and she wanted to do things to help them and to change their lives for the better. She couldn’t find a perfect way to do that within education and psychology, so she decided to change her field. She started working in a hospital - Xiangya – which is very famous hospital in China – and met people there. She realised she would like to know about adolescents, and to research if it would be possible to screen vulnerability to mental health issues, and maybe use the screening to find ways to make people’s lives better in the future. 
+Yini majored in psychology and is currently doing a PhD in neuroimaging. 
+She changed her subject because during the last year of her undergraduate degree she started to be an intern teacher in a special school, and a lot of students had mental health challenges such as depression, bipolar disorder, and schizophrenia. 
+Yini found her time teaching them an amazing experience. 
+She enjoyed their creativity and talking to them, and she wanted to do things to help them and to change their lives for the better. 
+She thought she had to know more about neural mechanisms of mental disorders in order to gain a deeper understanding of them. 
+She couldn’t find a perfect way to do that within education and psychology, so she decided to change her field. 
+She started working in a hospital - Xiangya – which is very famous hospital in China – and met people there. 
+She realised she would like to know about adolescents, and to research if it would be possible to screen vulnerability to mental health issues, and maybe use the screening to find ways to make people’s lives better in the future. 
 
 #### “Tell me about your research at the Turing”
 
@@ -77,13 +116,20 @@ Yini’s research interests at the Turing divides into three stems:
 
 1. Finding out how personality types relate to mental health differences: using questionnaires and scales to scope out people’s personalities or individual traits and then building a model to predict mental health issues when that person is under stress, compared to when they’re not.
 2. Finding out how neuroimaging can be used to predict mental health differences: investigating what are the biomarkers or the brain regions which suggest different mental states.
-3. Investigating the relationship between the personality, the brain, and mental health. Yini wants to find relationships between the personality and the brain, and how both of them could influence human behaviour and susceptibility to certain types of mental health issues. 
+3. Investigating the relationship between the personality, the brain, and mental health. 
+Yini wants to find relationships between the personality and the brain, and how both of them could influence human behaviour and susceptibility to certain types of mental health issues. 
 
-Personality and the brain may be combined to influence behaviour. In research, Yini collects images of different people’s brains and data about their behaviour, and uses longitudinal data to examine these under different stress conditions to see how the brain and personality will influence mental health. Collecting data over multiple points in time is important, as it helps to discern causes from correlations. 
+Personality and the brain may be combined to influence behaviour. 
+In research, Yini collects images of different people’s brains and data about their behaviour, and uses longitudinal data to examine these under different stress conditions to see how the brain and personality will influence mental health. 
+Collecting data over multiple points in time is important, as it helps to discern causes from correlations. 
 
 #### “What’s your ideal outcome of your time at the Turing?”
 
-Yini is very interested in open science, which is new to her but which she thinks is a very good and clean way of doing research. She wants to study Kirstie’s way of doing research and learn from her. She also wants to improve her skills in coding and work with other people who can help her. She can learn from Kirstie, who is a very supportive supervisor, and she’s also happy to find peers and friends to learn new things with. For Yini, teamwork is very important, and at the Turing she can find good team members and support to help answer meaningful questions – which is her ideal outcome.
+Yini is very interested in open science, which is new to her but which she thinks is a very good and clean way of doing research. 
+She wants to study Kirstie’s way of doing research and learn from her. 
+She also wants to improve her skills in coding and work with other people who can help her. 
+She can learn from Kirstie, who is a very supportive supervisor, and she’s also happy to find peers and friends to learn new things with. 
+For Yini, teamwork is very important, and at the Turing she can find good team members and support to help answer meaningful questions – which is her ideal outcome.
 
 #### “How are you finding the Turing?”
 

From 94670bba5c11300dfa21afaa77096d8fa015fd2e Mon Sep 17 00:00:00 2001
From: GeorgiaHCA <gaitkenhead@turing.ac.uk>
Date: Fri, 6 Sep 2019 12:28:29 +0100
Subject: [PATCH 08/17] Update _posts/2018-08-13-Introducing....md

Co-Authored-By: Kirstie Whitaker <kw401@cam.ac.uk>
---
 _posts/2018-08-13-Introducing....md | 2 +-
 1 file changed, 1 insertion(+), 1 deletion(-)

diff --git a/_posts/2018-08-13-Introducing....md b/_posts/2018-08-13-Introducing....md
index 6ecd09fa..ee2c3b22 100644
--- a/_posts/2018-08-13-Introducing....md
+++ b/_posts/2018-08-13-Introducing....md
@@ -2,7 +2,7 @@
 layout: post
 title: ### Introducing...
 categories: blog
-excerpt: ### blog introducing three people from Kirstie's lab 
+excerpt: Blog introducing three people from Kirstie's lab 
 tags: [] ### INSERT TAGS IF APPLICABLE
 image:
   feature:

From b7a113aca8f2cf263cdbb003ece267f846ba5c82 Mon Sep 17 00:00:00 2001
From: GeorgiaHCA <gaitkenhead@turing.ac.uk>
Date: Fri, 6 Sep 2019 12:30:46 +0100
Subject: [PATCH 09/17] Update _posts/2018-08-13-Introducing....md

Co-Authored-By: Kirstie Whitaker <kw401@cam.ac.uk>
---
 _posts/2018-08-13-Introducing....md | 2 +-
 1 file changed, 1 insertion(+), 1 deletion(-)

diff --git a/_posts/2018-08-13-Introducing....md b/_posts/2018-08-13-Introducing....md
index ee2c3b22..b7b52b99 100644
--- a/_posts/2018-08-13-Introducing....md
+++ b/_posts/2018-08-13-Introducing....md
@@ -3,7 +3,7 @@ layout: post
 title: ### Introducing...
 categories: blog
 excerpt: Blog introducing three people from Kirstie's lab 
-tags: [] ### INSERT TAGS IF APPLICABLE
+tags: [turing-institute, onboarding]
 image:
   feature:
 link: 

From 1625ffbf0cad74fd53477d299be0d7d6c6386292 Mon Sep 17 00:00:00 2001
From: GeorgiaHCA <gaitkenhead@turing.ac.uk>
Date: Fri, 6 Sep 2019 12:31:17 +0100
Subject: [PATCH 10/17] Update _posts/2018-08-13-Introducing....md

Co-Authored-By: Sparkler <ang.li@nlpr.ia.ac.cn>
---
 _posts/2018-08-13-Introducing....md | 2 +-
 1 file changed, 1 insertion(+), 1 deletion(-)

diff --git a/_posts/2018-08-13-Introducing....md b/_posts/2018-08-13-Introducing....md
index b7b52b99..bf6cfcdb 100644
--- a/_posts/2018-08-13-Introducing....md
+++ b/_posts/2018-08-13-Introducing....md
@@ -81,7 +81,7 @@ He is very interested in the biology of the brain.
 
 Ang is interested in mental disorders, especially schizophrenia, and developing clinically useful biomarkers to help psychiatrists by using genomic or neuroimaging data. 
 Ang would also like to use genomic data to understand the pathology of schizophrenia. 
-The pathology itself is complex, but it is a very important area to understand, and many answers emerge from examining the genome. 
+The pathology itself is complex, but it is a very important area to understand given there's no cure for this disease, and many answers emerge from examining the genome. 
 The other part of Ang’s research is about understanding the concept of human consciousness. 
 Ang is also interested in neurodevelopment, using neuroimaging data to help understand the emergence and pathologies of some mental disorders– this could be used to predict why adolescents might have mental health challenges.
 

From fad99264add1812972ad6c98b3425d1fe2025e10 Mon Sep 17 00:00:00 2001
From: GeorgiaHCA <gaitkenhead@turing.ac.uk>
Date: Fri, 6 Sep 2019 12:31:37 +0100
Subject: [PATCH 11/17] Update _posts/2018-08-13-Introducing....md

Co-Authored-By: Sparkler <ang.li@nlpr.ia.ac.cn>
---
 _posts/2018-08-13-Introducing....md | 2 +-
 1 file changed, 1 insertion(+), 1 deletion(-)

diff --git a/_posts/2018-08-13-Introducing....md b/_posts/2018-08-13-Introducing....md
index bf6cfcdb..a19dc7c3 100644
--- a/_posts/2018-08-13-Introducing....md
+++ b/_posts/2018-08-13-Introducing....md
@@ -79,7 +79,7 @@ He is very interested in the biology of the brain.
 
 #### “Tell me about your research at the Turing”
 
-Ang is interested in mental disorders, especially schizophrenia, and developing clinically useful biomarkers to help psychiatrists by using genomic or neuroimaging data. 
+Ang is interested in mental disorders, especially schizophrenia, and he is trying to develop clinically useful biomarkers to help psychiatrists based on neuroimaging or genome data. 
 Ang would also like to use genomic data to understand the pathology of schizophrenia. 
 The pathology itself is complex, but it is a very important area to understand given there's no cure for this disease, and many answers emerge from examining the genome. 
 The other part of Ang’s research is about understanding the concept of human consciousness. 

From efbb655eae4065a9087750f73ea5ed4753afd283 Mon Sep 17 00:00:00 2001
From: GeorgiaHCA <gaitkenhead@turing.ac.uk>
Date: Fri, 6 Sep 2019 12:31:54 +0100
Subject: [PATCH 12/17] Update _posts/2018-08-13-Introducing....md

Co-Authored-By: Sparkler <ang.li@nlpr.ia.ac.cn>
---
 _posts/2018-08-13-Introducing....md | 2 +-
 1 file changed, 1 insertion(+), 1 deletion(-)

diff --git a/_posts/2018-08-13-Introducing....md b/_posts/2018-08-13-Introducing....md
index a19dc7c3..8cf4ce48 100644
--- a/_posts/2018-08-13-Introducing....md
+++ b/_posts/2018-08-13-Introducing....md
@@ -89,7 +89,7 @@ Ang is also interested in neurodevelopment, using neuroimaging data to help unde
 
 Ang would like to learn about reproducible research from Kirstie. His area normally deals with many different types of data, for instance genome data, gene expression and MRI (magnetic resonance imaging) data. 
 As the real real-world questions, especially in brain science, are always complex, expertise from a lot of different domains is required to answer them: psychology, psychiatry, genomic science, mathematics and even physics. 
-Ang believes that a diverse community of people from different specialisms is a necessary to answer some important scientific question. 
+Ang believes that a diverse community of people from different specialisms is necessary to answer some important scientific questions. 
 And it could be useful to cooperate by linking their ideas closely along with some uniform code.
 
 #### “How are you finding the Turing?”

From 94c30dc88cde0df8c47ae630606c6a120c01a1f0 Mon Sep 17 00:00:00 2001
From: GeorgiaHCA <gaitkenhead@turing.ac.uk>
Date: Fri, 6 Sep 2019 12:43:53 +0100
Subject: [PATCH 13/17] Rename _posts/2018-08-13-Introducing....md to
 _posts/blog/2018-08-13-Georgia_Introduces.md

---
 .../2018-08-13-Georgia_Introduces.md}                             | 0
 1 file changed, 0 insertions(+), 0 deletions(-)
 rename _posts/{2018-08-13-Introducing....md => blog/2018-08-13-Georgia_Introduces.md} (100%)

diff --git a/_posts/2018-08-13-Introducing....md b/_posts/blog/2018-08-13-Georgia_Introduces.md
similarity index 100%
rename from _posts/2018-08-13-Introducing....md
rename to _posts/blog/2018-08-13-Georgia_Introduces.md

From d316fbc30cc80d4cb12c3fe062c165fbe027cd54 Mon Sep 17 00:00:00 2001
From: GeorgiaHCA <gaitkenhead@turing.ac.uk>
Date: Fri, 6 Sep 2019 12:57:15 +0100
Subject: [PATCH 14/17] Update 2018-08-13-Georgia_Introduces.md

Made changes to introducing... blog post responding to comments.
---
 _posts/blog/2018-08-13-Georgia_Introduces.md | 16 ++++++++--------
 1 file changed, 8 insertions(+), 8 deletions(-)

diff --git a/_posts/blog/2018-08-13-Georgia_Introduces.md b/_posts/blog/2018-08-13-Georgia_Introduces.md
index 8cf4ce48..a225c9a2 100644
--- a/_posts/blog/2018-08-13-Georgia_Introduces.md
+++ b/_posts/blog/2018-08-13-Georgia_Introduces.md
@@ -1,6 +1,6 @@
 ---
 layout: post
-title: ### Introducing...
+title: Georgia Introduces
 categories: blog
 excerpt: Blog introducing three people from Kirstie's lab 
 tags: [turing-institute, onboarding]
@@ -13,13 +13,13 @@ share: true
 author: GeorgiaHCA ###
 ---
 
-:tada: :star2: :rocket: Introducing three of my stellar Turing colleagues... 
+🎉 🌟 🚀  As a new Turingite I'm delighted to discover so many interesting people doing exciting work. So I'd like to introduce three of my stellar Turing colleagues... 
 
-## :star: Sarah Gibson :star: 
+## ⭐️ Sarah Gibson ⭐️ 
 
 #### "Tell me about your background"
 
-For her PhD in Astrophysics, Sarah worked on a NASA (:heart_eyes:!!) project called Swift hunting down gamma ray bursts. 
+For her PhD in Astrophysics, Sarah worked on a NASA (🤩!!) project called Swift hunting down gamma ray bursts. 
 Gamma ray bursts are very brief flashes of high energy radiation, and it’s difficult to predict when and where they will go off. 
 
 Gamma ray bursts form in two ways: when young massive stars go supernova, or two neutron stars merge together. 
@@ -65,7 +65,7 @@ It’s a really supportive environment, and the ethos is much more about collabo
 People are not too possessive over their work. 
 It’s nice to be able to share knowledge and get to a good solution together.”
 
-## :star: Ang Li :star: 
+## ⭐️ Ang Li ⭐️
 
 #### “Tell me about your background”
 
@@ -97,7 +97,7 @@ And it could be useful to cooperate by linking their ideas closely along with so
 “I love the working environment of the Turing, it’s different from my Chinese lab and I have more free space – I can work in a different place every day. 
 Also, the Turing has the great advantage that we can meet people with diverse backgrounds and fields.”
 
-## :star: Yini He :star: 
+## ⭐️ Yini He ⭐️
 
 #### “Tell me about your background” 
 
@@ -137,6 +137,6 @@ For Yini, teamwork is very important, and at the Turing she can find good team m
 
 ### <em> Fun Extra Fact </em> 
 
-<em> I found out that Yini and I share a nickname – her friends call her the same Chinese name I was given when I worked in Beijing – Hwa Hwa – which means flower! So we have a special connection. </em> :cherry_blossom::cherry_blossom:
+<em> I found out that Yini and I share a nickname – her friends call her the same Chinese name I was given when I worked in Beijing – Hwa Hwa – which means flower! So we have a special connection. </em> 🌸🌸
 
-:octocat: Superstellar thank you to Sarah, Ang, and Yini for giving me their time and patiently answering my questions. I'm so excited to be working with you all! :octocat:
+:octocat: Superstellar thank you to Sarah, Ang, and Yini for giving me their time and patiently answering my questions. I'm so excited to be working with you all! :octocat: 

From 374b6f2649c1aee0dca2ed770e1ec7c0b2e9ecbc Mon Sep 17 00:00:00 2001
From: GeorgiaHCA <gaitkenhead@turing.ac.uk>
Date: Fri, 6 Sep 2019 13:00:01 +0100
Subject: [PATCH 15/17] Delete 2019-08-13-Introducing....md

Deleting old file as replaced by new one (Georgia Introduces)
---
 _posts/blog/2019-08-13-Introducing....md | 96 ------------------------
 1 file changed, 96 deletions(-)
 delete mode 100644 _posts/blog/2019-08-13-Introducing....md

diff --git a/_posts/blog/2019-08-13-Introducing....md b/_posts/blog/2019-08-13-Introducing....md
deleted file mode 100644
index 1fea8c84..00000000
--- a/_posts/blog/2019-08-13-Introducing....md
+++ /dev/null
@@ -1,96 +0,0 @@
----
-layout: post
-title: ### Introducing...
-categories: blog
-excerpt: ### blog introducing three people from Kirstie's lab 
-tags: [] ### INSERT TAGS IF APPLICABLE
-image:
-  feature:
-link: 
-date: 2019-08-13 ### UPDATE date
-modified:
-share: true
-author: GeorgiaHCA ###
----
-
-:tada: :star2: :rocket: Introducing three of my stellar Turing colleagues... 
-
-## :star: Sarah Gibson :star: 
-
-#### "Tell me about your background"
-
-For her PhD in Astrophysics, Sarah worked on a NASA (:heart_eyes:!!) project called Swift hunting down gamma ray bursts. Gamma ray bursts are very brief flashes of high energy radiation, and it’s difficult to predict when and where they will go off. 
-
-Gamma ray bursts form in two ways: when young massive stars go supernova, or two neutron stars merge together. The first produces gamma ray bursts which are long in time duration because they have a lot of matter. They happen in very early galaxies and are very bright, and studying them tells us a lot about the first galaxies that were formed after the Big Bang. Many galaxies may not be bright enough to see without these gamma rays, so studying them can help us discover new galaxies, as well as telling us the composition of stuff between us and the burst - e.g. what our galaxy is made of, what the galaxy the burst happened in is made of, and what the stuff in between is made of.
-
-Dead stars that merge are much older:  you need to have time for two stars to die and then spiral into one another. Studying the gamma rays which neutron stars emit can tell us how often we can expect stars to die and how often collisions occur when stars are orbiting each other.
-
-NASA uses an autonomous satellite which can react rapidly and make decisions without a controller, and Sarah used Monte Carlo methods to optimise her model to the data. She also spent a month in Namibia where there’s an on-ground telescope, looking at gamma rays emitted from black holes at the centre of our galaxy. We can use this information to learn more about how standard the Milky Way is compared to other galaxies.
-
-#### “Tell me about your research at the Turing”
-
-Sarah’s official job title at the Turing is “Research Data Scientist”. There are two distinct roles, data scientist and software engineer, which are often seen as a binary, but the Turing treats them as a spectrum, and Sarah floats between the two. 
-
-As a data scientist, her job is analytical, and involves things like cleaning data sets, chosing the right methods to answer particular research questions, and creating data visualisations. As a software engineer, her work involves building tools, and following best practices when using code to answer questions. She says that it’s very important to remember that code is not infallible, a human has to create it and we are subject to our own biases and opinions that might be transferred.
-
-If you don’t follow best practice, you run the risk of creating unreproducible code, or code that doesn’t do what you think it’s doing. There is the risk of the code producing an answer or output that that isn’t obviously wrong but is still wrong, and this is a real issue if there’s no transparency and no-one can interrogate it.
-
-Sarah is involved in creating The Turing Way. This was originally a guide for doing reproducible data science; but it is evolving into a more general guide. She has been linking up with the Binder community, as they have a great tool for sharing code and data very easily. Binder is a solution to being able to test whether you can get the same results from the same data: this could be by using mybinder.org which is completely public, or by installing your own binder hub and enabling it to work with a private repository. 
-
-#### “What’s your ideal outcome of your time at the Turing?”
-
-Sarah finds that the Turing gives her the opportunity to work in a lot of different domains and projects. Her ideal outcome would be that through the Turing she can “find my groove” as well as the domain that she is best at and appeals to her most. She’s proud to work with the Binder community and has been asked to be a long-term contributor - anything she could do to contribute to the community and push technology forward would make her very proud. 
-
-Sarah also wants to learn to do all of the cool things - every day is a different challenge, and it’s nice to have space to learn things properly!
-
-#### “How are you finding the Turing?”
-
-“Amazing! It’s a really supportive environment, and the ethos is much more about collaboration than competition. People are not too possessive over their work. It’s nice to be able to share knowledge and get to a good solution together.”
-
-## :star: Ang Li :star: 
-
-#### “Tell me about your background”
-
-Ang is currently a PhD student. His college major was in engineering, specialising in space flight. He studied in the Northeast of China in the Heliongjiang Province at the University of Harbin. Ang was born in a very small city. At first, he didn’t know that much about engineering, but he was told that it was very lucrative! When he started studying, however, he found that he was not so interested in engineering and switched to brain science. He is very interested in the biology of the brain.
-
-#### “Tell me about your research at the Turing”
-
-Ang is interested in mental disorders, especially schizophrenia, and developing clinically useful biomarkers to help psychiatrists by using genomic or neuroimaging data. Ang would also like to use genomic data to understand the pathology of schizophrenia. The pathology itself is complex, but it is a very important area to understand, and many answers emerge from examining the genome. The other part of Ang’s research is about understanding the concept of human consciousness. Ang is also interested in neurodevelopment, using neuroimaging data to help understand the emergence and pathologies of some mental disorders– this could be used to predict why adolescents might have mental health challenges.
-
-#### “What’s your ideal outcome of your time at the Turing?”
-
-Ang would like to learn about reproducible research from Kirstie. His area normally deals with many different types of data, for instance genome data, gene expression and MRI (magnetic resonance imaging) data. As the real real-world questions, especially in brain science, are always complex, expertise from a lot of different domains is required to answer them: psychology, psychiatry, genomic science, mathematics and even physics. Ang believes that a diverse community of people from different specialisms is a necessary to answer some important scientific question. And it could be useful to cooperate by linking their ideas closely along with some uniform code.
-
-#### “How are you finding the Turing?”
-
-“I love the working environment of the Turing, it’s different from my Chinese lab and I have more free space – I can work in a different place every day. Also, the Turing has the great advantage that we can meet people with diverse backgrounds and fields.”
-
-## :star: Yini He :star: 
-
-#### “Tell me about your background” 
-
-Yini majored in psychology and is currently doing a PhD in neuroimaging. She changed her subject because during the last year of her undergraduate degree she started to be an intern teacher in a special school, and a lot of students had mental health challenges such as depression, bipolar disorder, and schizophrenia. Yini found her time teaching them an amazing experience. She enjoyed their creativity and talking to them, and she wanted to do things to help them and to change their lives for the better. She couldn’t find a perfect way to do that within education and psychology, so she decided to change her field. She started working in a hospital - Xiangya – which is very famous hospital in China – and met people there. She realised she would like to know about adolescents, and to research if it would be possible to screen vulnerability to mental health issues, and maybe use the screening to find ways to make people’s lives better in the future. 
-
-#### “Tell me about your research at the Turing”
-
-Yini’s research interests at the Turing divides into three stems:
-
-1. Finding out how personality types relate to mental health differences: using questionnaires and scales to scope out people’s personalities or individual traits and then building a model to predict mental health issues when that person is under stress, compared to when they’re not.
-2. Finding out how neuroimaging can be used to predict mental health differences: investigating what are the biomarkers or the brain regions which suggest different mental states.
-3. Investigating the relationship between the personality, the brain, and mental health. Yini wants to find relationships between the personality and the brain, and how both of them could influence human behaviour and susceptibility to certain types of mental health issues. 
-
-Personality and the brain may be combined to influence behaviour. In research, Yini collects images of different people’s brains and data about their behaviour, and uses longitudinal data to examine these under different stress conditions to see how the brain and personality will influence mental health. Collecting data over multiple points in time is important, as it helps to discern causes from correlations. 
-
-#### “What’s your ideal outcome of your time at the Turing?”
-
-Yini is very interested in open science, which is new to her but which she thinks is a very good and clean way of doing research. She wants to study Kirstie’s way of doing research and learn from her. She also wants to improve her skills in coding and work with other people who can help her. She can learn from Kirstie, who is a very supportive supervisor, and she’s also happy to find peers and friends to learn new things with. For Yini, teamwork is very important, and at the Turing she can find good team members and support to help answer meaningful questions – which is her ideal outcome.
-
-#### “How are you finding the Turing?”
-
-“I think my major and interests involve very complex questions, based on a lot of different kinds of knowledge such as neuroimaging, computer programming, and biology, so I would like to communicate with people from different fields, and coming to the Turing I’ve met a lot of amazing people, so it’s very interesting.”
-
-### <em> Fun Extra Fact </em> 
-
-<em> I found out that Yini and I share a nickname – her friends call her the same Chinese name I was given when I worked in Beijing – Hwa Hwa – which means flower! So we have a special connection. </em> :cherry_blossom::cherry_blossom:
-
-:octocat: Superstellar thank you to Sarah, Ang, and Yini for giving me their time and patiently answering my questions. I'm so excited to be working with you all! :octocat:

From 398e01757a3f866b737be61f8dcb00a0a0be23ba Mon Sep 17 00:00:00 2001
From: GeorgiaHCA <gaitkenhead@turing.ac.uk>
Date: Fri, 6 Sep 2019 13:00:40 +0100
Subject: [PATCH 16/17] Rename 2018-08-13-Georgia_Introduces.md to
 2018-08-13-Georgia-Introduces.md

Minor change to title format
---
 ...-13-Georgia_Introduces.md => 2018-08-13-Georgia-Introduces.md} | 0
 1 file changed, 0 insertions(+), 0 deletions(-)
 rename _posts/blog/{2018-08-13-Georgia_Introduces.md => 2018-08-13-Georgia-Introduces.md} (100%)

diff --git a/_posts/blog/2018-08-13-Georgia_Introduces.md b/_posts/blog/2018-08-13-Georgia-Introduces.md
similarity index 100%
rename from _posts/blog/2018-08-13-Georgia_Introduces.md
rename to _posts/blog/2018-08-13-Georgia-Introduces.md

From e353604ef662dc0049faa9c5b6bbaf9d4e83cb9c Mon Sep 17 00:00:00 2001
From: Kirstie Whitaker <kw401@cam.ac.uk>
Date: Mon, 21 Oct 2019 18:50:39 +0100
Subject: [PATCH 17/17] Fix broken links

---
 .../blog/2019-05-20-Ruslan's-Introduction.md  | 50 +++++++++----------
 .../2019-08-23-Ruslan-Final-Report-GSoC19.md  |  2 +-
 2 files changed, 26 insertions(+), 26 deletions(-)

diff --git a/_posts/blog/2019-05-20-Ruslan's-Introduction.md b/_posts/blog/2019-05-20-Ruslan's-Introduction.md
index a6d09372..5f5e6347 100644
--- a/_posts/blog/2019-05-20-Ruslan's-Introduction.md
+++ b/_posts/blog/2019-05-20-Ruslan's-Introduction.md
@@ -12,7 +12,7 @@ share: true
 author: ruslan_yermakov
 ---
 
-## TL;DR 
+## TL;DR
 
 > My name is Ruslan Yermakov, I am a senior undergraduate student with a major in Computer Science at Sumy State University, Ukraine.
 I find it so hard to put into words how much I am enthusiastic to be accepted as a Google Summer of Code student and excited to become a member of the Whitaker lab research group and to contribute to the scona project, an open-source toolkit for neuroscientists!
@@ -20,27 +20,27 @@ My interests include data visualization, data science, neuroscience and design o
 
 ## Why scona and neuroscience?
 
-Being initiative and enterprising, I am always willing to learn new things and look for new ideas. 
-I value self-development and consider education to be the best investment. 
-Based on the Coursera’s recommendation once I’ve decided to complete the [online course](https://www.coursera.org/learn/learning-how-to-learn) “Learning how to learn” (the best ever course) presented by Dr. Barbara Oakley. 
-This is how I have got excited about neuroscience field. What I liked the most, all the tips and suggestions of how to “learn smart not hard” were backed up by insightful facts and recent researches, that inform about the way our brain works, which is helpful for improving one's productivity. 
+Being initiative and enterprising, I am always willing to learn new things and look for new ideas.
+I value self-development and consider education to be the best investment.
+Based on the Coursera’s recommendation once I’ve decided to complete the [online course](https://www.coursera.org/learn/learning-how-to-learn) “Learning how to learn” (the best ever course) presented by Dr. Barbara Oakley.
+This is how I have got excited about neuroscience field. What I liked the most, all the tips and suggestions of how to “learn smart not hard” were backed up by insightful facts and recent researches, that inform about the way our brain works, which is helpful for improving one's productivity.
 That’s why the chance to apply my knowledge and skills to develop the tool for neuroscientist was so appealing to me.
 
-From the list of [INCF’s](https://www.incf.org/gsoc2019/projectlist) projects, [scona project](https://github.com/WhitakerLab/scona) grabbed my attention the most. 
-It matches my previous experience and skills as well as my interests. 
-I especially appreciated the chance to contribute to the python project (love Python) that has great potential to be used by many people. 
+From the list of [INCF’s](https://summerofcode.withgoogle.com/archive/2019/organizations/5347624150892544) projects, [scona project](https://github.com/WhitakerLab/scona) grabbed my attention the most.
+It matches my previous experience and skills as well as my interests.
+I especially appreciated the chance to contribute to the python project (love Python) that has great potential to be used by many people.
 In short, I just felt that this project was right for me.
 
 ## Some more interests
 
-In order to gain practical experience, in March 2018 I moved to Germany to work at SAP SE as a Software Engineer Intern for the following 6 months. 
-During my internship, I was working on the integration of Google Service - BigQuery into SAP DataHub (BigData platform). 
-To complete the task I developed new components (operators) in Python, covered code with unit tests and made well-written documentation. 
+In order to gain practical experience, in March 2018 I moved to Germany to work at SAP SE as a Software Engineer Intern for the following 6 months.
+During my internship, I was working on the integration of Google Service - BigQuery into SAP DataHub (BigData platform).
+To complete the task I developed new components (operators) in Python, covered code with unit tests and made well-written documentation.
 While working with teammates and mentors on the project, I became familiar with the collaborative workflow and agile software development.
 
-I am a happy dog owner, football-addicted (once red, forever red), constantly broadening my outlook by engaging in exciting discussions about the meaning of life and if a hotdog is a sandwich. 
-I am interested in machine learning and artificial intelligence, new advancements and achievements in hightech. 
-Love reading and hearing awesome stories and points of views from interesting people (Elon Musk is not the only one). 
+I am a happy dog owner, football-addicted (once red, forever red), constantly broadening my outlook by engaging in exciting discussions about the meaning of life and if a hotdog is a sandwich.
+I am interested in machine learning and artificial intelligence, new advancements and achievements in hightech.
+Love reading and hearing awesome stories and points of views from interesting people (Elon Musk is not the only one).
 
 <figure>
   <img src="/images/Ruslan-GSoC/buddy.jpg"
@@ -48,22 +48,22 @@ Love reading and hearing awesome stories and points of views from interesting pe
   <figcaption> Waiting for the summer with my buddy </figcaption>
 </figure>
 
-## What's next 
+## What's next
 
-First things first, over the summer I plan to achieve the goals and ideas I mentioned in my proposal for the project. 
-While contributing and working on scona I personally want to hone my programming skills and put my problem-solving skills to the next level. 
+First things first, over the summer I plan to achieve the goals and ideas I mentioned in my proposal for the project.
+While contributing and working on scona I personally want to hone my programming skills and put my problem-solving skills to the next level.
 In addition, I would like to help to grow a community around the scona package.
 
-As per my future plans, I plan to have my Master’s studies at a nice university with the major in Data Science. 
-Most of all what I appreciate about Computer Science and programming is the way it enables people to bring their ideas to life and solve the problems our community faces. 
-I also like to work on real-life projects and see the outcomes of my efforts that have influence business and society. 
-That’s why my Master’s Degree I decided to have in Data Science, as I believe this field fits my interests at best. 
-Interacting and collaborating with people from The Alan Turing Institute, the UK’s national institute for data science and artificial intelligence, will be incredibly beneficial and valuable for my future. 
-While applying I did not know that project is within a lab at the Turing Institute though. 
-What a great coincidence! 
+As per my future plans, I plan to have my Master’s studies at a nice university with the major in Data Science.
+Most of all what I appreciate about Computer Science and programming is the way it enables people to bring their ideas to life and solve the problems our community faces.
+I also like to work on real-life projects and see the outcomes of my efforts that have influence business and society.
+That’s why my Master’s Degree I decided to have in Data Science, as I believe this field fits my interests at best.
+Interacting and collaborating with people from The Alan Turing Institute, the UK’s national institute for data science and artificial intelligence, will be incredibly beneficial and valuable for my future.
+While applying I did not know that project is within a lab at the Turing Institute though.
+What a great coincidence!
 
 
-I am delighted of being able to contribute to such a [meaningful project](https://github.com/WhitakerLab/scona), become a member of the Whitaker lab research group and be part of the vast community of INCF organization. 
+I am delighted of being able to contribute to such a [meaningful project](https://github.com/WhitakerLab/scona), become a member of the Whitaker lab research group and be part of the vast community of INCF organization.
 Looking forward to the great summer!
 
 <figure>
diff --git a/_posts/blog/2019-08-23-Ruslan-Final-Report-GSoC19.md b/_posts/blog/2019-08-23-Ruslan-Final-Report-GSoC19.md
index 15905e11..ae8704a2 100644
--- a/_posts/blog/2019-08-23-Ruslan-Final-Report-GSoC19.md
+++ b/_posts/blog/2019-08-23-Ruslan-Final-Report-GSoC19.md
@@ -17,7 +17,7 @@ author: ruslan_yermakov
 
 > **Student**: Ruslan Yermakov <br>
 > **Mentor**: Dr Kirstie Whitaker <br>
-> **Organization**: [INCF](https://www.incf.org/gsoc2019/projectlist) <br>
+> **Organization**: [INCF](https://summerofcode.withgoogle.com/archive/2019/organizations/5347624150892544/) <br>
 > **Project**: Open-source project [**scona**](https://github.com/WhitakerLab/scona) - a toolkit to perform brain network analyses <br>
 > **Project's goal**: Producing publication-ready brain network analysis results and visualisations from the command line