Analysis of Twitter user's location behaviors
Contents
Comments
This is a nice general area - I'm a little worried because though because you guys haven't yet converged on a precise topic/question, and are planning on collecting data. A couple of suggestions:
- Justin's talk tomorrow on LiveHoods may give you some concrete ideas. I believe that their group has data to distribute.
- There is some data with ground truth on some of the questions you're raising, in MIT's reality mining project. It might make sense to evaluate some models on this data, and then apply them to Twitter location data to see what can be inferred (eg, where people live, etc.)
Good luck refining these ideas! --Wcohen 15:08, 10 October 2012 (UTC)
PS. Bhavana recommends this paper: Nilesh N. Dalvi, Ravi Kumar, Bo Pang: Object matching in tweets with spatial models. WSDM 2012: 43-52
PPS. A previous project for this course used 4-square data and location-based Twitter data, which might be available.
What's the team
What’s the data you’ll work with?
We first select a list of users in twitter who utilize location information in their tweets.
- Seed user set (SUS): we randomly gather a set of users (say 500) that are "location-active" (It means they use location information in their tweets.).
We identify them by listening to streaming API and apply filtering rules for SUS. In order to make their location interpretable by us, we enforce them to be in Great Pittsburgh area.
- Extended user set (EUS) : we extract all the mutual followers of users in SUS in order to observe the social sphere of the seed users.
(All SUS users are in EUS. if user A is in SUS, A follows B and B follows A, then B is in the EUS. B does not have to be using location feature)
Then we crawl user profiles and tweeting history for all the users in EUS in a specified time period (say 60 days) using REST API, in order to study the nature of their tweeting behavior using location.
What’s the task or tasks?
The main task for us is to understand:
- [1] How do people use the location feature?
- What types of the places people tends to tag in their tweets? Do they use it to share public info only, private info only, both or neither?
- (We try to identify some typical personas, and estimate the population distribution on them. We use reverse geocoding API to label locations semantically.)
- Do people, who socially closed to each other, share similar usage pattern?
- What types of the places people tends to tag in their tweets? Do they use it to share public info only, private info only, both or neither?
Some general research questions we are trying to answer:
- RQ1: What is the fraction of users that use location feature in Twitter? And how frequent are they using it?
- RQ2: What are relations between location and tweet content among "location-active" users?
- RQ3: Does "location-active" users share common posting behavior with their social sphere?
- RQ4: How is the impact of location info in the "location-active" users' social sphere?
- RQ5: What can we infer from users' location info? (Can we locate their living area, their home or their workplace? )
How will you evaluate? (qualitative or quantitatively?)
- To evaluate our analysis on tweets, we can pick a random subset of users, and compare our inferred user info with human-interpreted information.
- And to evaluate the consistency of our conclusions, we may use cross-validation.
(We use a subset to learn the nature of tweeting behavior, and check if the conclusions can also be applied to the rest of users.)
What are the key technical challenges, and what do you hope to learn?
- One of the challenges here is to infer users' behavior from tweet stream, which is a noisy channel.
Users might not have consistent tweeting style, or behave differently in different sources (for example, web browser V.S. mobile clients)
- Another challenge is the analysis of social interaction of users. The interaction flow that we can observe might be incomplete.
What kinds of social impact can we identify? We might need to dig deeper into our data to find the answer.