2026年10月13日至16日,第六届岩土工程信息技术国际会议(ICITG 2026)将在奥地利格拉茨召开。本会议是国际岩土工程协会联盟(FedIGS)旗下岩土工程数据标准专业委员会(JTC2)主办的系列国际会议。
国际岩土工程协会联盟(FedIGS)由国际土力学与岩土工程学会(ISSMGE)、国际岩石力学学会(ISRM)、国际工程地质与环境协会(IAEG)以及国际土工合成材料学会(IGS)四大权威学会共同组成。其下设的岩土工程数据标准专业委员会(JTC2)长期致力于推动岩土工程数据表达、标准化与共享的相关工作。
自2010年首次在同济大学举办以来,ICITG系列会议已先后在世界多地成功召开,持续为岩土工程信息技术领域的国际交流与合作提供重要平台。
第六届会议将聚焦岩土工程数字化与信息技术前沿,以工作坊(Workshop)和专题论坛(Special Session)的形式, 欢迎全球工程师、科学家、研究人员及教育工作者参会,共同分享最新成果、探讨发展趋势,推动智慧岩土工程的进步与创新。我们诚挚邀请您相聚格拉茨,共襄盛会!
会议网址:https://www.icitg2026.com/
Special Session 3
大地感知:分布式感知、智能分析与跨学科应用
3Ds in Geo-Sensing: Distributed Sensing, Intelligent Analysis, and Deep Applications
分会场主席
顾凯, 南京大学教授
张丹, 南京大学教授
刘瑾, 河海大学教授
分布式温度传感(DTS)、分布式应变传感(DSS)与分布式声学传感(DAS)技术组成的“3Ds 技术”,推动了地下空间表征与基础设施监测领域的变革。此类技术在大范围尺度上,提供前所未有的、空间连续的温度、应变及振动数据。专场将围绕从先进感知到智能数据应用的全流程展开探讨,聚焦此类海量高分辨率数据集带来的挑战与机遇。旨在弥合数据采集与工程洞见之间的鸿沟,推动地质工程领域从简单监测向预测性、数据驱动型决策转型。
专场涵盖新型感知方法、前沿大数据分析算法,以及跨学科的突破性应用。通过汇聚传感技术、数据科学与地质工程领域的专家,致力于界定智能地质感知技术的未来发展方向,及其在打造更安全、更具韧性的基础设施中所扮演的关键角色。
现征集相关领域摘要投稿,主题包括但不限于以下方向:
(1)多物理场感知与数据采集
(2)智能分析与模型开发
(3)跨学科深度应用
3Ds in Geo-Sensing: Distributed Sensing, Intelligent Analysis, and Deep Applications
The advent of Distributed Temperature Sensing (DTS), Distributed Strain Sensing (DSS), and Distributed Acoustic Sensing (DAS)—collectively known as 3Ds technologies—is revolutionizing subsurface characterization and infrastructure monitoring. These techniques provide unprecedented, spatially continuous data on temperature, strain, and vibration across vast scales. This session will explore the complete pipeline from advanced sensing to intelligent data utilization, focusing on the unique challenges and opportunities presented by these massive, high-resolution datasets. We aim to bridge the gap between data acquisition and engineering insight, fostering a transition from simple monitoring to predictive, data-driven decision-making in geo-engineering.
The session will cover novel sensing methodologies, cutting-edge algorithms for big data analysis, and transformative applications across multiple disciplines. By bringing together experts in sensing technology, data science, and geo-engineering, this session seeks to define the future of intelligent ground sensing and its role in creating safer and more resilient infrastructure.
We invite contributions on topics including, but not limited to:
(1) Multi-Physics Sensing & Data Acquisition
Novel deployment techniques and integration strategies for DTS, DSS, and DAS.
Fusion of 3Ds data with other monitoring data (e.g., InSAR, IoT sensors).
New paradigms for real-time, distributed monitoring of geotechnical structures and geological processes.
(2) Data Analytics & Model Development
Machine learning and deep learning algorithms for feature extraction, anomaly detection, and pattern recognition in 3Ds data.
Data compression, denoising, and management strategies for massive distributed datasets.
Development of digital twins and predictive models calibrated with 3Ds data.
(3) Intelligent Design & Automated Management
Applications in geohazard warning (e.g., landslides, land subsidence), geotechnical engineering (e.g., tunnel, slope, and foundation), and hydropower (e.g., dam, dike).
Case studies in energy sectors (e.g., geothermal reservoir, pipeline monitoring) and transportation (e.g., railway, highway).
Long-term performance assessment and lifecycle management of critical infrastructure.
摘要征集与投稿指南
优秀摘要将被推荐向以下期刊的特刊提交完整论文:
Underground Space
ENGINEERING Structure and Civil Engineering (原名:Frontiers of Structural and Civil Engineering)
Civil Engineering Design
重要时间