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tags:: [[#zotero]]
title:: @recsys2024-workshops_paper_130
item-type:: [[document]]
original-title:: recsys2024-workshops_paper_130
links:: [Local library](zotero://select/library/items/8RGHKSLZ), [Web library](https://www.zotero.org/users/1039502/items/8RGHKSLZ)
- ### Attachments
- [PDF](zotero://select/library/items/R3PBSZNC) {{zotero-imported-file R3PBSZNC, "recsys2024-workshops_paper_130.pdf"}}
- ### Notes
- # Annotazioni
(16/9/2024, 10:37:40)
- “Empowering shilling attacks” (“recsys2024-workshops_paper_130”, p. 1) #5fb236
* *
- “Knowledge graphs (KGs).” (“recsys2024-workshops_paper_130”, p. 1) #5fb236
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- “A malicious agent can add fake user profiles into the platform, altering the genuine similarity values and the corresponding recommendation lists” (“recsys2024-workshops_paper_130”, p. 1) #a28ae5
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- “KGs relatedness measures, i.e., Katz and Exclusivity-based” (“recsys2024-workshops_paper_130”, p. 1) #5fb236
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- “Thanks to the appearance of wideranging Linked Datasets like DBpedia and Wikidata, we have witnessed the flourishing of novel techniques in several research fields, like Machine Learning, Information Retrieval, and Recommender Systems.” (“recsys2024-workshops_paper_130”, p. 1) #5fb236
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- “ocal solution to assist users decision-making process” (“recsys2024-workshops_paper_130”, p. 1) #5fb236
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- “RSs support and ease the decisional process.” (“recsys2024-workshops_paper_130”, p. 1) #5fb236
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- “heir rationale is to analyze products experienced by similar users to produce tailored recommendations.” (“recsys2024-workshops_paper_130”, p. 1) #5fb236
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- “malicious users may want to jeopardize the operation of the recommendation platform.” (“recsys2024-workshops_paper_130”, p. 1) #a28ae5
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- “Whatever they are motivated by, the problem is that these similarities are vulnerable to the insertion of fake profiles” (“recsys2024-workshops_paper_130”, p. 1) #a28ae5
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- “shilling attack” (“recsys2024-workshops_paper_130”, p. 1) #5fb236
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- “generate more influential fake profiles to threaten CF models performance” (“recsys2024-workshops_paper_130”, p. 1) #a28ae5
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- “semantics-aware shilling attack SAShA” (“recsys2024-workshops_paper_130”, p. 1) #e56eee
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- “Katz centrality and Exclusivity-based relatedness.” (“recsys2024-workshops_paper_130”, p. 2) #a28ae5
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- “ontological, categorical, and factual relations” (“recsys2024-workshops_paper_130”, p. 2) #a28ae5
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- “two novel graph topological and semantic approaches” (“recsys2024-workshops_paper_130”, p. 2) #a28ae5
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- “a novel semantic shilling attack strategy” (“recsys2024-workshops_paper_130”, p. 2) #a28ae5
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- “a deeper discussion of the experimental results involving several dimensions” (“recsys2024-workshops_paper_130”, p. 2) #a28ae5
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- “SAShA” (“recsys2024-workshops_paper_130”, p. 2) #5fb236
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- “Definition 1 (Recommendation Problem)” (“recsys2024-workshops_paper_130”, p. 2) #5fb236
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- “g : U × I → R” (“recsys2024-workshops_paper_130”, p. 2) #5fb236
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- “A KG is a heterogeneous network that encodes multiple relationships, edges, nodes, and links items at high-level relationships, making them a strong item representation technique.” (“recsys2024-workshops_paper_130”, p. 2) #a28ae5
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- “Knowledge-aware Recommender Systems (KaRS [22, 23]).” (“recsys2024-workshops_paper_130”, p. 2) #a28ae5
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- “Path-based methods” (“recsys2024-workshops_paper_130”, p. 3) #5fb236
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- “KG embedding-based techniques” (“recsys2024-workshops_paper_130”, p. 3) #5fb236
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- “fake profiles to poison the data and alter the recommendation behavior toward malicious goals” (“recsys2024-workshops_paper_130”, p. 3) #a28ae5
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- “shilling attack (injection of malicious profiles)” (“recsys2024-workshops_paper_130”, p. 3) #a28ae5
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- “proposing and investigating attack strategies” (“recsys2024-workshops_paper_130”, p. 3) #a28ae5
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- “exploring defensive mechanisms” (“recsys2024-workshops_paper_130”, p. 3) #a28ae5
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- “adversarys knowledge is related only to the recommender systems user-item interaction matrix” (“recsys2024-workshops_paper_130”, p. 3) #a28ae5
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- “SAShA framework to verify the possible improvement of the adversarys efficacy when processing the KG information with semantic similarity measures.” (“recsys2024-workshops_paper_130”, p. 3) #a28ae5
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- “shilling attacks, which are hand-engineered strategies to study recommender systems security.” (“recsys2024-workshops_paper_130”, p. 3) #a28ae5
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- “This research line is different from machine-learned data poisoning attack [70, 71, 72, 73, 74] and adversarial machine-learned attacks [75, 76, 61, 77? ] where adversaries adopt optimization techniques to create perturbations.” (“recsys2024-workshops_paper_130”, p. 3) #5fb236
* *
- “shilling attacks against targeted items integrating information obtained from a knowledge graph (KG).” (“recsys2024-workshops_paper_130”, p. 3) #a28ae5
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- “In general, the three metrics cover different aspects of the similarity between the resource a signal of the overlap of the descriptions and a semanticsaware signal that highlights the specificity of the relations between the resources.” (“recsys2024-workshops_paper_130”, p. 3) #ff6666
*Does not parse, please, revise. *
- “The smaller the angle, the higher is the cosine, and thus the similarity.” (“recsys2024-workshops_paper_130”, p. 4) #a28ae5
* *
- “/” (“recsys2024-workshops_paper_130”, p. 4) #ff6666
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- “Katz centrality” (“recsys2024-workshops_paper_130”, p. 4) #2ea8e5
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- “the probability of the path between two nodes can indicate the effectiveness of the link” (“recsys2024-workshops_paper_130”, p. 4) #a28ae5
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- “Given a constant probability for a single-hop path” (“recsys2024-workshops_paper_130”, p. 4) #ffd400
*how is this calculated/assessed. Who provide it? *
- “Katz relatedness” (“recsys2024-workshops_paper_130”, p. 4) #a28ae5
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- “accumulated score over the top-t shortest paths between them.” (“recsys2024-workshops_paper_130”, p. 4) #a28ae5
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- “where SP (t) ij is the set of the top-t shortest paths between items i and j. This is the first novel similarity metric tested in this work.” (“recsys2024-workshops_paper_130”, p. 4) #5fb236
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- “Exclusivity-based semantic relatedness” (“recsys2024-workshops_paper_130”, p. 4) #2ea8e5
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- “two concepts are strongly connected if the type of relations between them is different from the type of relations they have with other concepts.” (“recsys2024-workshops_paper_130”, p. 4) #a28ae5
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- “predicate ρ of type τ” (“recsys2024-workshops_paper_130”, p. 4) #ffd400
*So predicates have also types? *
- “IS denotes the selected item set containing items identified by the attacker to maximize the effectiveness of the attack” (“recsys2024-workshops_paper_130”, p. 4) #5fb236
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- “SP = IS + IF + Iφ + IT (6) where IS denotes the selected item set containing items identified by the attacker to maximize the effectiveness of the attack, IF is the filler item set, containing a set of randomly selected items to which rating scores are assigned to make them imperceptible. IT is the target item, for which the recommendation model will make a prediction, aimed to be maximal (for push attack) or minimum (for nuke attack). Finally, Iφ is the unrated item set, holding a number of items without any ratings.” (“recsys2024-workshops_paper_130”, p. 4) #ffd400
*An illustrative example would help here. *