Social media is not only impacting our online activities but also impacting lives offline. It has eventually increased the access to a variety of information, way of communication and much more. According to reports, in 2018, the average daily social media usage of internet users worldwide amounted to 136 minutes per day which means we are spending more than 2 hours a day reading the feeds from social media.\u00a0\n\nGiven the current scenario, a user depends solely on social media feeds for gaining daily information such as entertainment and news feeds. The users usually depend on the curated feeds to gain information on a daily basis. However, at certain times while using the platform, a user can experience an irrelevant feed which is not related. This happens because, at a certain point of time, a user accumulates a broad number of actions which results in constituting complex feeds.\u00a0\n\nResearchers around the globe are working on cognitive workloads, filter bubbles, user tracking, privacy risks, among others by keeping transparency and explainability as the key concerns of the modern era.\u00a0\n\nRecently, researchers at the Max Planck Institute for Informatics developed an AI framework known as Framework for Activity-Item Relationship DiscoverY. This framework systematically discovers, ranks, and explains relationships between users\u2019 actions and items in their social media feeds.\u00a0\n\nHow The Model Works\n\nFAIRY solves the issues of complex feed by building user-specific interaction graphs exclusively using information visible to the user himself. For training the model, a user-study was conducted for over two months involving 20 users each on Quora and Last.fm, providing useful design guidelines for future research on feed analysis. It also uses learning-to-rank techniques to discover and rank relationships derived from the above interaction graphs.\n\nThe FAIRY framework uses a heterogeneous information network (HIN) in order to represent a user\u2019s presence and activities on a social network as a graph and relies on a learning-to-rank (LTR) model to order explanation paths mined from this user-specific interaction graph.\u00a0\n\nThe researchers employed the learning-to-rank (LTR) model based on ordinal regression which models judgments of relevance and surprisal, collected from the same users who received the feed item. To be precise, the researchers used a pairwise learning-to-rank model based on the ordinal regression which directly makes use of the user\u2019s preference on pairs of explanations. The FAIRY model is compared with other state-of-the-art methods for computing entity relatedness over knowledge graphs such as ESPRESSO, REX and PRA as baselines. The former model outperforms these baselines on two representative platforms in modelling both relevance and surprisal.\n\nThe features to assist the FAIRY framework are grouped into five sets, they are mentioned below\n\n\n User: For the user feature, the researchers considered two factors for users on explanation paths, they are user influence and user activity.\u00a0\n Category: The category feature includes popularity or influence and category specificity are estimated for categories.\u00a0\n Item: The item feature includes specificity for items such as songs, post, etc., engagement into certain things or actions.\n Path Instance: The path instance feature measures the aspects of the specific path in question.\n Path Pattern: In this feature, pattern frequency, edge type counts and pattern confidence are taken into consideration.\u00a0\n\n\nKey Takeaways\n\n\n FAIRY is the first user-centric framework for discovering and ranking the explanation paths between the activities of the users on a social network and items in their feeds.\n This framework model for capturing the aspects of user-relevance as well as surprisal for such explanations, with learning-to-rank techniques over light-weight features.\u00a0\n This framework is compared with other baselines for gaining the accuracy for relevance and surprisal models and this framework has significantly outperformed all the baselines.