• DocumentCode
    3483194
  • Title

    Distributed and Layered Sensing

  • Author

    Wicks, Michael C. ; Moore, William

  • Author_Institution
    Air Force Res. Lab., Rome
  • fYear
    2007
  • fDate
    4-8 June 2007
  • Firstpage
    233
  • Lastpage
    239
  • Abstract
    One can easily envision future military operations and emerging civilian requirements (e.g. intelligent unmanned vehicles for urban warfare, intelligent manufacturing plants) that will be both complex and stressing and will demand innovative sensors and sensor configurations. The goal of our research into distributed and layered sensing is to develop a cost effective and extendable approach for providing surveillance for a variety of applications in dynamically changing military and civilian environments. Within distributed and layered sensing, we foresee a new sensor archetype. In this paradigm, sensors and algorithms will be autonomously altered depending on the environment. Radars will use the same returns to perform detection and discrimination, to adjust the platform flight path and change mission priorities. The sensors will dynamically and automatically change waveform parameters to accomplish these goals. Disparate sensors will communicate and share data and instructions in real-time. Intelligent sensor systems will operate within and between sensor platforms such that the integration of multiple sensor data provides information needed to achieve dynamic goals and avoid electromagnetic fratricide. Intelligent sensor platforms working in partnership will increase information flow, minimize ambiguities, and dynamically change multiple sensors´ operations based upon a changing environment. Concomitant with the current emphasis on more flexible defense structures, distributed and layered sensing will allow the appropriate incremental application of remote sensing assets by matching resources to the situation at hand. In this paper, we discuss the electromagnetic compatibility (EMC) issues that must be addressed and understood as part of the development of a futuristic intelligence, surveillance and reconnaissance concept utilizing distributed and layered sensing waveform diverse systems. These systems involve the innovative integration of cutting edge technolog- ies such as: knowledge-based signal processing, robotics, wireless networking waveform diversity, the semantic web, advanced computer architectures and supporting software languages. This concept is projected as an autonomous constellation of air, space, and ground vehicles that would offer a robust paradigm to build toward future deployments. The goal is to develop waveform-time-space adaptive processing for distributed apertures that could reduce EMC issues.
  • Keywords
    distributed sensors; electromagnetic compatibility; intelligent sensors; military systems; waveform analysis; disparate sensors; distributed sensing; electromagnetic compatibility; electromagnetic fratricide; intelligent sensor systems; layered sensing; platform flight path; surveillance; waveform-time-space adaptive processing algorithms; Change detection algorithms; Costs; Electromagnetic compatibility; Intelligent sensors; Intelligent vehicles; Manufacturing; Sensor systems; Signal processing algorithms; Space technology; Surveillance;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Waveform Diversity and Design Conference, 2007. International
  • Conference_Location
    Pisa
  • Print_ISBN
    978-1-4244-1276-1
  • Electronic_ISBN
    978-1-4244-1276-1
  • Type

    conf

  • DOI
    10.1109/WDDC.2007.4339417
  • Filename
    4339417