Changes

On September 16, 2024 at 11:11:45 AM UTC, admin:
Added resource Workshop Data Sources to Hybrid AI Approach for Counterfactual Prediction over Knowledge Graphs for Personal Healthcare
              
    
          
          
        
        
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            4   "author": "Hao Huang", 4   "author": "Hao Huang",
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            18       "extra_author": "Emetis Niazmand", 18       "extra_author": "Emetis Niazmand",
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            41   "language": "English", 41   "language": "English",
            42   "license_id": "cc-by", 42   "license_id": "cc-by",
            43   "license_title": "Creative Commons Attribution", 43   "license_title": "Creative Commons Attribution",
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            46   "maintainer": "Hao Huang", 46   "maintainer": "Hao Huang",
            47   "maintainer_email": "hao.haung@tib.eu", 47   "maintainer_email": "hao.haung@tib.eu",
            48   "metadata_created": "2024-09-16T11:10:13.665218", 48   "metadata_created": "2024-09-16T11:10:13.665218",
            n 49   "metadata_modified": "2024-09-16T11:10:13.902459", n 49   "metadata_modified": "2024-09-16T11:11:44.959159",
            50   "name":  50   "name": 
            51 nterfactual-prediction-over-knowledge-graphs-for-personal-healthcare", 51 nterfactual-prediction-over-knowledge-graphs-for-personal-healthcare",
            52   "notes": "https://youtu.be/vkF3fpCZLhk Artificial intelligence (AI)  52   "notes": "https://youtu.be/vkF3fpCZLhk Artificial intelligence (AI) 
            53 has become an invaluable tool in health-care for disease prediction  53 has become an invaluable tool in health-care for disease prediction 
            54 and diagnosis. Despite their predictive accuracy, AI models may ignore  54 and diagnosis. Despite their predictive accuracy, AI models may ignore 
            55 causal relationships between patient characteristics (demographic or  55 causal relationships between patient characteristics (demographic or 
            56 clinical). As a result, although AI models capture associative  56 clinical). As a result, although AI models capture associative 
            57 patterns, ignoring the causal relationships of predicted  57 patterns, ignoring the causal relationships of predicted 
            58 characteristics limits their ability to perform counterfactual  58 characteristics limits their ability to perform counterfactual 
            59 reasoning about the predicted characteristics of a patient when  59 reasoning about the predicted characteristics of a patient when 
            60 dependent characteristics change. This limitation of AI models can  60 dependent characteristics change. This limitation of AI models can 
            61 affect the understanding of predicted outcomes. We have proposed  61 affect the understanding of predicted outcomes. We have proposed 
            62 hybrid AI methods that combine symbolic reasoning over knowledge  62 hybrid AI methods that combine symbolic reasoning over knowledge 
            63 graphs (KGs), large language models (LLMs), and causal reasoning  63 graphs (KGs), large language models (LLMs), and causal reasoning 
            64 techniques to infer causal relationships between patients' properties.  64 techniques to infer causal relationships between patients' properties. 
            65 As a result, a causal model is learned, enabling counterfactual  65 As a result, a causal model is learned, enabling counterfactual 
            66 prediction to support clinical decisions. We apply these AI methods to  66 prediction to support clinical decisions. We apply these AI methods to 
            67 predict the counterfactuals of biomarker results in non-small cell  67 predict the counterfactuals of biomarker results in non-small cell 
            68 lung cancer (NSCLC) patients under hypothetical treatments with  68 lung cancer (NSCLC) patients under hypothetical treatments with 
            69 different smoking habits. We have created synthetic datasets based on  69 different smoking habits. We have created synthetic datasets based on 
            70 clinical records of NSCLC patients to evaluate the performance of the  70 clinical records of NSCLC patients to evaluate the performance of the 
            71 proposed methods. The observed results suggest that our methods are  71 proposed methods. The observed results suggest that our methods are 
            72 competitive with baseline methods in causal relationship discovery and  72 competitive with baseline methods in causal relationship discovery and 
            73 counterfactual prediction. CCS CONCEPTS \u2022 Applied computing  73 counterfactual prediction. CCS CONCEPTS \u2022 Applied computing 
            74 \u2192 Health care information systems; \u2022 Computing methodologies  74 \u2192 Health care information systems; \u2022 Computing methodologies 
            75 \u2192 Artificial intelligence.", 75 \u2192 Artificial intelligence.",
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            127     } 154     }
            128   ], 155   ],
            129   "temporal_resolution": "", 156   "temporal_resolution": "",
            130   "title": "Hybrid AI Approach for Counterfactual Prediction over  157   "title": "Hybrid AI Approach for Counterfactual Prediction over 
            131 Knowledge Graphs for Personal Healthcare", 158 Knowledge Graphs for Personal Healthcare",
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