Africa
Knowledge Graphs: The Future of Data Integration and Insightful Discovery
Mohamed, Saher, Farah, Kirollos, Lotfy, Abdelrahman, Rizk, Kareem, Saeed, Abdelrahman, Mohamed, Shahenda, Khouriba, Ghada, Arafa, Tamer
Knowledge graphs are an efficient method for representing and connecting information across various concepts, useful in reasoning, question answering, and knowledge base completion tasks. They organize data by linking points, enabling researchers to combine diverse information sources into a single database. This interdisciplinary approach helps uncover new research questions and ideas. Knowledge graphs create a web of data points (nodes) and their connections (edges), which enhances navigation, comprehension, and utilization of data for multiple purposes. They capture complex relationships inherent in unstructured data sources, offering a semantic framework for diverse entities and their attributes. Strategies for developing knowledge graphs include using seed data, named entity recognition, and relationship extraction. These graphs enhance chatbot accuracy and include multimedia data for richer information. Creating high-quality knowledge graphs involves both automated methods and human oversight, essential for accurate and comprehensive data representation.
Uchaguzi-2022: A Dataset of Citizen Reports on the 2022 Kenyan Election
Mondini, Roberto, Kotonya, Neema, Logan, Robert L. IV, Olson, Elizabeth M, Lungati, Angela Oduor, Odongo, Daniel Duke, Ombasa, Tim, Lamba, Hemank, Cahill, Aoife, Tetreault, Joel R., Jaimes, Alejandro
Online reporting platforms have enabled citizens around the world to collectively share their opinions and report in real time on events impacting their local communities. Systematically organizing (e.g., categorizing by attributes) and geotagging large amounts of crowdsourced information is crucial to ensuring that accurate and meaningful insights can be drawn from this data and used by policy makers to bring about positive change. These tasks, however, typically require extensive manual annotation efforts. In this paper we present Uchaguzi-2022, a dataset of 14k categorized and geotagged citizen reports related to the 2022 Kenyan General Election containing mentions of election-related issues such as official misconduct, vote count irregularities, and acts of violence. We use this dataset to investigate whether language models can assist in scalably categorizing and geotagging reports, thus highlighting its potential application in the AI for Social Good space.
Recipient Profiling: Predicting Characteristics from Messages
Borquez, Martin, Keller, Mikaela, Perrot, Michael, Sileo, Damien
It has been shown in the field of Author Profiling that texts may inadvertently reveal sensitive information about their authors, such as gender or age. This raises important privacy concerns that have been extensively addressed in the literature, in particular with the development of methods to hide such information. We argue that, when these texts are in fact messages exchanged between individuals, this is not the end of the story. Indeed, in this case, a second party, the intended recipient, is also involved and should be considered. In this work, we investigate the potential privacy leaks affecting them, that is we propose and address the problem of Recipient Profiling. We provide empirical evidence that such a task is feasible on several publicly accessible datasets (https://huggingface.co/datasets/sileod/recipient_profiling). Furthermore, we show that the learned models can be transferred to other datasets, albeit with a loss in accuracy.
Iranian men charged in connection with fatal drone strike that killed three US soldiers
Breonna Moffett were the U.S. soldiers killed in the Iran-backed drone attack. Two Iranian men, including a dual Iranian American citizen, have been charged in connection with a fatal drone strike earlier this year that killed three U.S. military service members and injured dozens more. Mohammad Mahdi Sadeghi was arrested in Massachusetts and Mohammad Abedini was arrested in Italy and was in the custody of Italian authorities, federal prosecutors said. Both men are charged with export control violations. They are accused of exporting sensitive technology to Iran that was used in the fatal drone attack.
At least 38 killed in drone attack on Sudan's el-Fasher: Activists
Sudanese paramilitaries have attacked the city of el-Fasher killing at least 38 people, according to local activists, while international rights groups accuse the fighters of widespread sexual violence. The local resistance committee, a volunteer group coordinating aid in el-Fasher, said on Sunday that the paramilitary Rapid Support Forces (RSF) targeted the centre of the capital of North Darfur state "with four high-explosive missiles". The massacre followed an earlier drone attack on the city's Saudi Hospital on Friday, which killed nine people and wounded 20, forcing doctors to halt operations. World Health Organization (WHO) chief Tedros Adhanom Ghebreyesus described attacks on healthcare facilities across Sudan as "deplorable" in a post on X on Saturday. The RSF and Sudan's army have been locked in a power struggle since mid-April 2023, creating one of the worst humanitarian crises, with tens of thousands killed and more than 11 million displaced.
Fast-staged CNN Model for Accurate pulmonary diseases and Lung cancer detection
Souid, Abdelbaki, Hamroun, Mohamed, Othman, Soufiene Ben, Sakli, Hedi, Abdelkarim, Naceur
Pulmonary pathologies are a significant global health concern, often leading to fatal outcomes if not diagnosed and treated promptly. Chest radiography serves as a primary diagnostic tool, but the availability of experienced radiologists remains limited. Advances in Artificial Intelligence (AI) and machine learning, particularly in computer vision, offer promising solutions to address this challenge. This research evaluates a deep learning model designed to detect lung cancer, specifically pulmonary nodules, along with eight other lung pathologies, using chest radiographs. The study leverages diverse datasets comprising over 135,120 frontal chest radiographs to train a Convolutional Neural Network (CNN). A two-stage classification system, utilizing ensemble methods and transfer learning, is employed to first triage images into Normal or Abnormal categories and then identify specific pathologies, including lung nodules. The deep learning model achieves notable results in nodule classification, with a top-performing accuracy of 77%, a sensitivity of 0.713, a specificity of 0.776 during external validation, and an AUC score of 0.888. Despite these successes, some misclassifications were observed, primarily false negatives. In conclusion, the model demonstrates robust potential for generalization across diverse patient populations, attributed to the geographic diversity of the training dataset. Future work could focus on integrating ETL data distribution strategies and expanding the dataset with additional nodule-type samples to further enhance diagnostic accuracy.
A Survey on Large Language Models for Communication, Network, and Service Management: Application Insights, Challenges, and Future Directions
Boateng, Gordon Owusu, Sami, Hani, Alagha, Ahmed, Elmekki, Hanae, Hammoud, Ahmad, Mizouni, Rabeb, Mourad, Azzam, Otrok, Hadi, Bentahar, Jamal, Muhaidat, Sami, Talhi, Chamseddine, Dziong, Zbigniew, Guizani, Mohsen
The rapid evolution of communication networks in recent decades has intensified the need for advanced Network and Service Management (NSM) strategies to address the growing demands for efficiency, scalability, enhanced performance, and reliability of these networks. Large Language Models (LLMs) have received tremendous attention due to their unparalleled capabilities in various Natural Language Processing (NLP) tasks and generating context-aware insights, offering transformative potential for automating diverse communication NSM tasks. Contrasting existing surveys that consider a single network domain, this survey investigates the integration of LLMs across different communication network domains, including mobile networks and related technologies, vehicular networks, cloud-based networks, and fog/edge-based networks. First, the survey provides foundational knowledge of LLMs, explicitly detailing the generic transformer architecture, general-purpose and domain-specific LLMs, LLM model pre-training and fine-tuning, and their relation to communication NSM. Under a novel taxonomy of network monitoring and reporting, AI-powered network planning, network deployment and distribution, and continuous network support, we extensively categorize LLM applications for NSM tasks in each of the different network domains, exploring existing literature and their contributions thus far. Then, we identify existing challenges and open issues, as well as future research directions for LLM-driven communication NSM, emphasizing the need for scalable, adaptable, and resource-efficient solutions that align with the dynamic landscape of communication networks. We envision that this survey serves as a holistic roadmap, providing critical insights for leveraging LLMs to enhance NSM.
Knowledge Boundary of Large Language Models: A Survey
Li, Moxin, Zhao, Yong, Deng, Yang, Zhang, Wenxuan, Li, Shuaiyi, Xie, Wenya, Ng, See-Kiong, Chua, Tat-Seng
Although large language models (LLMs) store vast amount of knowledge in their parameters, they still have limitations in the memorization and utilization of certain knowledge, leading to undesired behaviors such as generating untruthful and inaccurate responses. This highlights the critical need to understand the knowledge boundary of LLMs, a concept that remains inadequately defined in existing research. In this survey, we propose a comprehensive definition of the LLM knowledge boundary and introduce a formalized taxonomy categorizing knowledge into four distinct types. Using this foundation, we systematically review the field through three key lenses: the motivation for studying LLM knowledge boundaries, methods for identifying these boundaries, and strategies for mitigating the challenges they present. Finally, we discuss open challenges and potential research directions in this area. We aim for this survey to offer the community a comprehensive overview, facilitate access to key issues, and inspire further advancements in LLM knowledge research.
Personalized LLM for Generating Customized Responses to the Same Query from Different Users
Zeng, Hang, Niu, Chaoyue, Wu, Fan, Lv, Chengfei, Chen, Guihai
Existing work on large language model (LLM) personalization assigned different responding roles to LLM, but overlooked the diversity of questioners. In this work, we propose a new form of questioner-aware LLM personalization, generating different responses even for the same query from different questioners. We design a dual-tower model architecture with a cross-questioner general encoder and a questioner-specific encoder. We further apply contrastive learning with multi-view augmentation, pulling close the dialogue representations of the same questioner, while pulling apart those of different questioners. To mitigate the impact of question diversity on questioner-contrastive learning, we cluster the dialogues based on question similarity and restrict the scope of contrastive learning within each cluster. We also build a multi-questioner dataset from English and Chinese scripts and WeChat records, called MQDialog, containing 173 questioners and 12 responders. Extensive evaluation with different metrics shows a significant improvement in the quality of personalized response generation.
CharacterBench: Benchmarking Character Customization of Large Language Models
Zhou, Jinfeng, Huang, Yongkang, Wen, Bosi, Bi, Guanqun, Chen, Yuxuan, Ke, Pei, Chen, Zhuang, Xiao, Xiyao, Peng, Libiao, Tang, Kuntian, Zhang, Rongsheng, Zhang, Le, Lv, Tangjie, Hu, Zhipeng, Wang, Hongning, Huang, Minlie
Character-based dialogue (aka role-playing) enables users to freely customize characters for interaction, which often relies on LLMs, raising the need to evaluate LLMs' character customization capability. However, existing benchmarks fail to ensure a robust evaluation as they often only involve a single character category or evaluate limited dimensions. Moreover, the sparsity of character features in responses makes feature-focused generative evaluation both ineffective and inefficient. To address these issues, we propose CharacterBench, the largest bilingual generative benchmark, with 22,859 human-annotated samples covering 3,956 characters from 25 detailed character categories. We define 11 dimensions of 6 aspects, classified as sparse and dense dimensions based on whether character features evaluated by specific dimensions manifest in each response. We enable effective and efficient evaluation by crafting tailored queries for each dimension to induce characters' responses related to specific dimensions. Further, we develop CharacterJudge model for cost-effective and stable evaluations. Experiments show its superiority over SOTA automatic judges (e.g., GPT-4) and our benchmark's potential to optimize LLMs' character customization. Our repository is at https://github.com/thu-coai/CharacterBench.