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Online Course

15 February 2024 - 10:00 am to 1:30 pm EST

Registration closes on 13 February 2024 at 5:00pm EST

Online via Zoom

Price

$149 IEEE ComSoc member
$189 IEEE member
$229 non-member

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CEU Credits: 0.3 CEUs

Course Description

There is a rejuvenated interest in satellite communications and networking. Both the satellite and cellular (3GPP) industries aim at developing a seamlessly integrated single network with both terrestrial and satellite components. Networking is one of the main differences between the legacy satellite systems and the mega-constellations of the 6G era (next-generation). The next-generation of satellite networks are expected to have very high-speed inter-satellite links. For efficient operation, the network will have to be autonomous, intelligent, resilient, self-organizing & self-controlling as much as possible to reduce the cost and risk of human intervention in such a hostile operating environment. Hence the security of the satellite networks, which will be integrated to the terrestrial networks will be of utmost importance. However, these novel networks have been largely overlooked by the systems security community. In this one-of-a-kind course, the instructors will take participants on an exploration of the security of the networking aspects of integrated terrestrial networks, which is still under development by the research community. 

In this course, the instructors will begin with a discussion on the fundamental components of LEO mega-constellations. This will be followed by the 6G vision which targets the integration of satellite mega-constellations with terrestrial networks. The emerging threat landscape for this network evolution fueled by the presence of LEO mega-constellations will then be described. Next a vulnerability classification will be presented, along with some attack examples. Three main vulnerability classes will be considered, these are: payload and inter-satellite link vulnerabilities; ground station/terrestrial network interconnection vulnerabilities; and signal vulnerabilities. The leading countermeasures will be discussed as a remedy to the presented attack types. Two practical applications that focus on signal vulnerabilities will be detailed. The first attack type is eavesdropping, where physical layer countermeasures and suitable authentication solutions will be studied. The second practical application will focus on jamming attacks targeting both the satellite-to-ground and satellite-to-satellite links. The course will conclude with an overview and a short discussion on the open issues.

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Who Should Attend

The course is intended for those working for innovative space companies, telecommunication equipment vendors, and telecommunication service providers. Engineering professionals working on the integration of satellites as a non-terrestrial networking platform and technical experts and R&D team members will be interested in this course.

Instruction Level:  Intermediate

Instructors

Gunes Karabulut Kurt

Gunes Karabulut Kurt

Associate Professor

Polytechnique Montréal, Canada

Gregory Falco

Gregory Falco

Assistant Professor

Johns Hopkins University, USA

Learning Objectives

After this course, participants will be able to:

  • Understand the main operational characteristics of satellite mega-constellations and their envisioned integration with terrestrial networks towards 6G
  • Categorize the emerging threats in satellite mega-constellations and High Altitude Platform Stations (HAPS)
  • Identify the vulnerabilities in Payload and Inter-Satellite Links; Ground station/Terrestrial Network Interconnection; Signal Transmissions
  • Suggest countermeasures to the identified vulnerabilities
  • Articulate on the practical application examples targeting eavesdropping and jamming attacks
  • Understand the open issues to achieve secure satellite networks
  • Understand the emerging international standards, along with the policies and spectrum regulation across nations

Course Content

The following topics will be covered:

  • Fundamental Components of Satellite Mega-Constellations and the Non-Terrestrial Networks
  • Integration of Satellite Mega-Constellations with Terrestrial Networks towards 6G
  • Emerging Threat Landscape
  • Vulnerability Classification
  • Payload and Inter-Satellite Link Vulnerabilities and Countermeasures
  • Ground station/Terrestrial Network Interconnection Vulnerabilities and Countermeasures
  • Signal Vulnerabilities and Countermeasures
  • Case Study-1: Resistance to Eavesdropping Attacks
  • Case Study-2: Resistance to Jamming Attacks
  • Case Study 3: Developments in Standards and Policies
  • Overview and Open Issues

Course Materials

A copy of the instructor's PowerPoint slides is included. Access to the streaming video recording is provided for 20 business days after the course has been taught. Earn 0.3 IEEE Continuing Education Units for participating and completing the post-course evaluation.

The web conference invitation is sent to each participant upon registration,  Course materials will be emailed to participants at least one business day in advance of the course date.

Course Cancellation and Refund Policy: Requests for online course cancellations must be received 3 business days prior to the course date for a full refund. Once course materials have been shared with a course participant cancellation and refund requests cannot be accommodated.

Contact Us

For general inquiries and technical support, contact Tara McNally, Certification and Professional Education Manager.