4th ACM SIGSPATIAL Workshop on Advances on Resilient and Intelligent Cities (ARIC 2021)
This workshop will focus on the scientific methods that will enable the next-generation cities. The COVID-19 pandemic has highlighted the need for cities to increasingly become more effective in delivering basic public services, utilizing emerging technologies, to better serve its residents. This workshop is motivated by three recent advances: a technology-driven future; new regulations to combat emerging social changes; and advances in computational sciences. The socio-technological innovations have enabled the generation of large volume of disparate, dynamic and geographically distributed data and motivated the creation of smart and connected cities. A smart and connected city leverages electronic methods, sensors and data science approaches to collect data, manage assets and services efficiently, thereby providing citizens with high-quality life. With increasing extreme events, the focus is also to build resilient cities. A resilient city focuses on bouncing back to its previous stage in the face of an emergency while meeting the daily activities and needs of its citizens. While resilient city discussion is still revolving around using socio-cultural and political factors and values, the smart city discussion focuses on where and when to use sensor technologies and how to automate decision-making. It is imperative for cities to be both resilient and smart so that technologies can be leveraged to tackle the challenges ranging from climate change, public health, traffic congestion, economic growth, to digital divide, social equity, political movements, and cultural conflicts, among others. The COVID-19 pandemic has highlighted the difference between smart and resilient cities more so than any other extreme events. For instance, the availability of real-time data and analytics, cloud computing and artificial intelligence (AI) enabled the development of dashboards and platforms to help with decision-making during the pandemic. While necessary and useful, t hese platforms and dashboards and big data have not been helpful in addressing the resilience of the impacted communities as evident from the economic stress that every country is facing. The smart city initiatives also have not been able to enhance and improve the resilience of the critical infrastructures as well as the heightened need to adapt and mitigate climate change impacts while achieving net zero carbon. Intelligent cities and infrastructures need to be planned and designed under the framework of resilience such that sensor technologies can aid with real-time knowledge discovery, decision-making, response and recovery in the aftermath of extreme events. This essentially requires using big data, artificial intelligence/machine learning, high performance computing, edge and cloud computing, interactive visualization, simulation and modeling in the context current and future extreme events to help cities be intelligent and resilient. Hence, this workshop fits the general theme of ACM SIGSPATIAL. Following the successes of the last three ARIC workshops held at ACM SIGSPATIAL Conferences in 2018, 2019, and 2020 and the vision of the post-COVID era to build back better, the 4th International Workshop on Advances on Resilient and Intelligent Cities (ARIC 2021) is timely. Thus, the overarching theme of 2021 ARIC Workshop is to identify current advancements, challenges and future directions in science and technology to address the convergence of climate justice, net zero carbon and infrastructure resilience. Through keynotes, paper-sessions and panels, this workshop will bring together researchers, practitioners from academia, public and private sector, and national laboratories from different disciplines to address the state-of-the-art techniques/methods, limitations and challenges for next generation cities and infrastructures.
The ARIC 2021 workshop invites papers in the following topics (but not limited to):
● Data fusion techniques and analytics for prediction and forecasting across space and time
● Real-time analytics of dynamic and distributed data
● Edge and distributed computing for data mining about cyber-physical systems
● Human dynamics in the Age of Smart/Intelligent Systems
● Spatial social network analytics in the built environment
● Theoretical and practical applications of Internet of Things in urban settings
● Optimizing sensor locations for resilience informatics
● Augmented reality, simulations and 3D-geovisualization for intelligence
● Analytical frameworks for net zero carbon and energy efficiency
● AI/ML driven solutions to assess and model resilience
● Network modeling, logistics and mobility analysis to quantify resilience
The 4 th International workshop on Advances on Resilient and Intelligent Cities will be a one-day event that will include two keynotes (one in the morning and one in the afternoon), individual paper presentations, and a panel. The following submissions will be invited for this workshop.
● Full research papers: 8-10 pages
● Short research papers or application demo papers: 4 pages
● Vision or statement papers: 2 pages
A full research paper will present a specific problem or topic and discuss methodology and findings along with future research directions. Short research papers will demonstrate existing methods, toolkits, and best practices for building intelligent and resilient cities. Vision paper will be more situational in their coverage. All papers will be peer-reviewed to ensure the quality and clarity of the research. Based on peer-review, three best paper awards will be announced at the end of the workshop.
The anticipated target group will include researchers and practitioners from academia, industry, policy institutions and national laboratories. Given their collective experience in smart and resilient city research, the workshop organizers are in a unique position to identify, invite and engage the target group for this workshop. The researchers from the Oak Ridge National Laboratory (ORNL) are involved in the U.S. Department of Energy’s research in the area of grid resiliency. The faculty from George Mason University (GMU) in involved in NSF and DOT funded projects addressing the resilience and sustainability of interdependent infrastructure systems. The faculty from Texas A & M University are involved in NSF funded projects on the development of open knowledge networks through the combination and testing of participatory and automated ontology development processes for urban and environmental resilience.
General Chair: Bandana Kar, Oak Ridge National Laboratory ([email protected])
Bandana Kar, Oak Ridge National Laboratory ([email protected])
Shima Mohebbi, George Mason University ([email protected])
Guangtao Fu, University of Exeter ([email protected])
Xinyue Ye, Texas A&M University ([email protected])
Olufemi A. Omitaomu, Oak Ridge National Laboratory ([email protected])
Hussain Aziz, Kansas State University
Yao-yi Chiang, University of Southern California
Subharoop Ghosh, ImageCat Inc.
Qunying Huang, University of Wisconsin-Madison
Xiao Huang, University of Arkansas
Zhenlong Li, University of South Carolina
Therese McAllister,NIST
Ian McRae, UC Berkley
Sarbeswar Praharaj, Arizona State University
Christine Prouty, American Society of Civil Engineers
Yao Yao, China University of Geosciences
Lei Zou, Texas A & M
Dr. Bandana Kar,
Oak Ridge National Laboratory 1, Bethel Valley Road Oak Ridge, TN 37831-6017
Email: [email protected]
Phone: +1-865-576-3717
Fax: +1-865-241-6261
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