Theses and Projects: Difference between revisions

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→‎* New! Edge-Cloud Orchestration for LiDAR-based Traffic Analysis

Hyanlon

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 ===  * '''New!''' Edge-Cloud Orchestration for LiDAR-based Traffic Analysis===
-The imminent era of smart cities and autonomous vehicles paves the way for the deployment and operation of advanced monitoring and processing systems. Among these, LiDAR technology stands out for its ability to provide high-resolution, three-dimensional traffic data, becoming an essential component for efficient traffic analysis and management. However, the computation-intensive and latency-sensitive nature of LiDAR data processing poses significant challenges and dictates the need for efficient orchestration between edge and cloud computing resources. Edge-Cloud Orchestration offers an innovative solution to this problem by bridging the gap between these two technologies, enabling the low-latency processing of complex LiDAR data. We expect you to have a background in point cloud processing/cloud computing, K8s, and programming skills.
+The imminent era of smart cities and autonomous vehicles paves the way for the deployment and operation of advanced monitoring and processing systems. Among these, LiDAR technology stands out for its ability to provide high-resolution, three-dimensional traffic data, becoming an essential component for efficient traffic analysis and management. However, the computation-intensive and latency-sensitive nature of LiDAR data processing poses significant challenges and dictates the need for efficient orchestration between edge and cloud computing resources. Edge-Cloud Orchestration offers an innovative solution to this problem by bridging the gap between these two technologies, enabling the low-latency processing of complex LiDAR data. It would be good if you have a background in point cloud processing/cloud computing, K8s, and programming skills.
 Please contact Yanlong Huang[yanlong.huang@cs.uni-goettingen.de]
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 Please contact Jin Xie [jin.xie@stud.uni-goettingen.de]
-===  * '''New!''' Using LLM for Sentiment Knowledge Graph Construction===
+===  * '''New!''' Using LLM for Sentiment Knowledge Graph Construction (B/M/P)===
 Constructing a sentiment knowledge graph using Large Language Models (LLMs) like ChatGPT involves leveraging the model's capabilities to understand and analyze textual data, extract entities and relationships, perform sentiment analysis, and organize the information into a graph structure.  We need students for this topic. We expect you have a background in knowledge graph and programming skills in Python.
-Please contact Wenfang Wu [wenfang.wu@cs.uni-goettingen.de] (B/M/P)
+Please contact Wenfang Wu [wenfang.wu@cs.uni-goettingen.de]
+===  * '''New!''' Using LLM for Knowledge Graph Completion (B/M/P)===
+Large language models (LLMs), such as ChatGPT and GPT-4 (OpenAI, 2023), have extensive internal knowledge repositories from their vast pretraining corpora, which can be used as an extra knowledge base to alleviate information scarcity for the long-tail entities in Knowledge Graphs. However, there is no effective workflow design for LLM on KGC tasks. How to leverage the LLM to perform reasoning on the KG Completion (KGC) task is a noteworthy and significant topic. We need students for this topic. We expect you to have a background in knowledge graph and LLMs, you'd better have a programming skill in Python.
+Please contact Tong Shen [shen.tong@cs.uni-goettingen.de]
 ===  * '''New!''' Tree Growth Detection using Satellite Images and Computer Vision Methods (B/M/P) ===