项目来源

美国国家科学基金(NSF)

项目主持人

Eirini Eleni Tsiropoulou

项目受资助机构

Arizona State University

财政年度

2025,2022

立项时间

未公开

项目编号

2514412

研究期限

未知 / 未知

项目级别

国家级

受资助金额

229930.00美元

学科

未公开

学科代码

未公开

基金类别

Standard Grant

关键词

CISE MSI Research Expansion ; WOMEN ; MINORITY ; DISABLED ; NEC

参与者

未公开

参与机构

ARIZONA STATE UNIVERSITY

项目标书摘要：Natural and man-made disasters pose a serious threat to individuals,assets,and society.As such,public safety organizations and first responders are increasingly reliant on Information Communication Technology(ICT)to perform their duties.Disaster management requires a set of capabilities,which includes resource management,access to relevant data and information,and robust and resilient communications.In support of these needs,the RESCUE project will design a three dimensional(3D)networks architecture that exploits the advances in the field of next generation wireless networks to provide a prototype solution such that an integrated communications system for disaster relief operations is realized.Additionally,an innovative massive multiple access mechanism and a dynamic spectrum sharing model will be introduced to increase the public safety system’s capacity and improve the spectrum utilization,respectively,during the relief operations.A new Positioning,Navigation,and Timing(PNT)solution will be proposed to support scenarios of Global Positioning System(GPS)denial by utilizing the next generation networks technology of Reconfigurable Intelligent Surfaces(RIS).The outcomes will have long-lasting benefits for the communications,and in turn the well-being,of the victims and first responders during disaster relief operations.Furthermore,the project will provide unique training for graduate and undergraduate students at the crossroads of reinforcement learning and next generation networking technologies.The RESCUE project will introduce a novel 3D networks architecture that exploits terrestrial and aerial base stations to provide the necessary redundancy of communications during disaster relief operations.A novel massive multiple access mechanism will support the victims and first responders’connectivity,and a robust dynamic spectrum sharing model will improve the spectrum utilization during disaster scenarios characterized by increased traffic demand.Innovative mechanisms to support the extended communications coverage,the mobility management,and the efficient resource management of the limited communications resources will be designed via utilization of the next generation wireless networks’technologies of Reconfigurable Intelligent Surfaces,Intelligent Omni-Surfaces,and the Integrated Access and Backhaul.A new positioning,navigation,and timing solution will support the disaster relief operations in cases of GPS-denial scenarios or indoor environments by exploiting the next generation wireless networks’technologies.A thorough testing and evaluation of the proposed 3D networks architecture and the supporting modules will be performed by following a simulation,emulation,and in-field iterative testing approach.The novelty of the RESCUE project lies in the synergistic,integrated,and pragmatic approach to efficiently utilize the next generation wireless networks’technologies to design an operational prototype that will support the connectivity of victims and first responders in public safety scenarios.The research outcomes of this project have the potential to support activities of Emergency Control Centers,such as in the City of Albuquerque.This project is jointly funded by the CISE MSI program and the Established Program to Stimulate Competitive Research(EPSCoR).This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.This synergistic and collaborative research project developed architectures for three-dimensional(3D)networks based on next generation communications technologies and solutions that realize integrated communications systems in order to support relief operations during and after natural or man-made disasters.The major outcomes of the project are listed below:Introduced a novel 3D networks architecture that exploits the terrestrial and aerial base stations to provide the necessary redundancy of communication during disaster relief operations.Proposed novel massive multiple access mechanisms to support the victims and first responders connectivity,and a robust spectrum sharing model.Designed innovative mechanisms to support the extended communications coverage,the mobility management,and the efficient resource management of the limited communications resources via utilizing the next generation wireless networks’technologies of Reconfigurable Intelligent Surfaces,Intelligent Omni-Surfaces,and the Integrated Access and Backhaul.Designed an alternative positioning,navigation,and timing solution to support the disaster relief operations in cases of GPS-denial scenarios or indoor environments.Thoroughly tested and evaluated the proposed 3D networks architecture and the supporting modules following a simulation,emulation,and in-field iterative testing approach.Interacted with public safety stakeholders and promoted the adoption of the developed tools,as well collect their feedback for the tools’further improvement.Disseminated the research findings of the project via keynote and invited presentations,and publications in high quality journals and peer-reviewed conferences.Trained the next generation of engineers and academics with the tools it takes to succeed in solving increasingly complex and challenging problems in the public safety sector.Integrated research outcomes of the project into undergraduate and graduate courses.Recruited and retained women and underrepresented minority students into the projectLast Modified:10/25/2025Modified by:Eirini Eleni TsiropoulouThis synergistic and collaborative research project developed architectures for three-dimensional(3D)networks based on next generation communications technologies and solutions that realize integrated communications systems in order to support relief operations during and after natural or man-made disasters.The major outcomes of the project are listed below:Introduced a novel 3D networks architecture that exploits the terrestrial and aerial base stations to provide the necessary redundancy of communication during disaster relief operations.Proposed novel massive multiple access mechanisms to support the victims and first responders connectivity,and a robust spectrum sharing model.Designed innovative mechanisms to support the extended communications coverage,the mobility management,and the efficient resource management of the limited communications resources via utilizing the next generation wireless networks technologies of Reconfigurable Intelligent Surfaces,Intelligent Omni-Surfaces,and the Integrated Access and Backhaul.Designed an alternative positioning,navigation,and timing solution to support the disaster relief operations in cases of GPS-denial scenarios or indoor environments.Thoroughly tested and evaluated the proposed 3D networks architecture and the supporting modules following a simulation,emulation,and in-field iterative testing approach.Interacted with public safety stakeholders and promoted the adoption of the developed tools,as well collect their feedback for the tools further improvement.Disseminated the research findings of the project via keynote and invited presentations,and publications in high quality journals and peer-reviewed conferences.Trained the next generation of engineers and academics with the tools it takes to succeed in solving increasingly complex and challenging problems in the public safety sector.Integrated research outcomes of the project into undergraduate and graduate courses.Recruited and retained women and underrepresented minority students into the projectLast Modified:10/25/2025Submitted by:Eirini EleniTsiropoulou

人员信息

Eirini Eleni Tsiropoulou(Principal Investigator)：eirini@asu.edu；

机构信息

【Arizona State University(Performance Institution)】StreetAddress：660 S MILL AVENUE STE 204,TEMPE,Arizona,United States/ZipCode：852813670；【ARIZONA STATE UNIVERSITY】StreetAddress：1475 N SCOTTSDALE RD STE 200,SCOTTSDALE,Arizona,United States/PhoneNumber：4809655479/ZipCode：852573538；

项目主管部门

Directorate for Computer and Information Science and Engineering(CSE)-Division Of Computer and Network Systems(CNS)

项目官员

Subrata Acharya(Email：acharyas@nsf.gov；Phone：7032922451)