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GENI-Enabled Vehicular Sensing and Control Networking: From Experiments to Applications

This publication explores the use of GENI (Global Environment for Network Innovations) to address real-world problems in transportation by enabling virtualization and simulation of vehicular sensing and control networks. It discusses the benefits of using existing vehicles and at-scale simulation, as well as the long-term deployment of virtualized VSC (Vehicular Sensing and Control) platforms. The paper also highlights the various GENI capabilities, such as wireless and sensing virtualization, and the engagement of opt-in users for research and experimentation.

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GENI-Enabled Vehicular Sensing and Control Networking: From Experiments to Applications

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  1. GENI-Enabled Vehicular Sensing and Control Networking: From Experiments to Applications Hongwei Zhang, Jing Hua, Jayanthi Rao, Anthony Holt, Patrick Gossman George Riley, Weidong Xiang Contact: Hongwei Zhang, hongwei@wayne.edu, http://www.cs.wayne.edu/~hzhang  Hongwei Zhang, Oct. 29, 2013

  2. Real-world problems drive maturity & sustainability of GENI.

  3. Next-generation transportation • Networked vehicle operation as new paradigm of transportation • Large-scale, permanent deployment of research-only vehicles infeasible in general What if Existing vehicles + at-scale simulation?

  4. GENI helps • Virtualization enables non-interfering concurrent access to resources • Help engage vehicles from opt-in users • GENI racks enable at-scale simulation • WiMAX and VLAN connect at-scale simulation with field vehicles, enabling at-scale, high-fidelity emulation

  5. Long-term deployment of virtualized VSC platforms At-scale emulation in GENI racks

  6. Multi-dimensional VSC network emulation Wireless channels Application traffic Mobility Vehicle mobility

  7. Enabling new GENI capabilities • Virtualized VSC platform • Wireless and sensing virtualization • Engaging opt-in users and enabling cross-discipline fertilization • Real-world vehicular sensing • OpenXC sensing of vehicle internal state and operations • Camera sensing of vehicle external state • Enabling VSC application emulation • Engaging opt-in users

  8. GENI wins too  • Stress-test GENI capabilities • Infrastructure and tool support for end-to-end experiments with multiple resources (i.e., racks, VLANs, WiMAX networks, VSC platforms) and multiple control frameworks (i.e., ORCA, OMF) • GENI long-term sustainability • Opt-in user and researcher engagement • GENI impact on broader research community such as DOT • Virtualized VSC platform • Research findings in predictable, real-time VSC networking

  9. End-to-end GENI experiments for VSC emulation • Opt-in users • GENI sustainability • Virtualized VSC platform Technical Contact: Hongwei Zhang Wayne State University hongwei@wayne.edu

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