Guide to Security in SDN and NFV
Challenges, Opportunities, and Applications
Samenvatting
This book highlights the importance of security in the design, development and deployment of systems based on Software-Defined Networking (SDN) and Network Functions Virtualization (NFV), together referred to as SDNFV. Presenting a comprehensive guide to the application of security mechanisms in the context of SDNFV, the content spans fundamental theory, practical solutions, and potential applications in future networks.Topics and features: introduces the key security challenges of SDN, NFV and Cloud Computing, providing a detailed tutorial on NFV security; discusses the issue of trust in SDN/NFV environments, covering roots of trust services, and proposing a technique to evaluate trust by exploiting remote attestation; reviews a range of specific SDNFV security solutions, including a DDoS detection and remediation framework, and a security policy transition framework for SDN; describes the implementation of a virtual home gateway, and a project that combines dynamic security monitoring with big-data analytics to detect network-wide threats; examines the security implications of SDNFV in evolving and future networks, from network-based threats to Industry 4.0 machines, to the security requirements for 5G; investigates security in the Observe, Orient, Decide and Act (OODA) paradigm, and proposes a monitoring solution for a Named Data Networking (NDN) architecture; includes review questions in each chapter, to test the reader’s understanding of each of the key concepts described.
This informative and practical volume is an essential resource for researchers interested in the potential of SDNFV systems to address a broad range of network security challenges. The work will also be of great benefit to practitioners wishing to design secure next-generation communication networks, or to develop new security-related mechanisms for SDNFV systems.
Specificaties
Inhoudsopgave
<p>Security of Software-Defined Infrastructures with SDN, NFV, and Cloud Computing Technologies<br> Doan B Hoang and Sarah Farahmandian</p>
<p>NFV Security: Emerging Technologies and Standards<br> Igor Faynberg and Steve Goeringer</p>
<p>SDN and NFV Security: Challenges for Integrated Solutions<br> Andrés F. Murillo, Sandra Julieta Rueda, Laura Victoria Morales, and Álvaro A. Cárdenas</p>
<p>Trust in SDN/NFV Environments<br> Antonio Lioy, Tao Su, Adrian L. Shaw, Hamza Attak, Diego R. Lopez, and Antonio Pastor</p>
<p>Part II: SDNFV Security Challenges and Network Security Solutions</p>
Practical Experience in NFV Security Field: Virtual Home Gateway<br> Antonio Pastor and Jesús Folgueira<p></p>
<p>A Security Policy Transition Framework for Software-Defined Networks<br> Jacob H. Cox Jr., Russell J. Clark, and Henry L. Owen III</p>
<p>SDNFV-Based DDoS Detection and Remediation in Multi-Tenant, Virtualized Infrastructures<br> Abeer Ali, Richard Cziva, Simon Jouët, and Dimitrios P. Pezaros</p>
<p>SHIELD – Securing Against Intruders and Other Threats Through a NFV-Enabled Environment<br> Hamza Attak, Marco Casassa-Mont, Cristian Dávila, Eleni-Constantina Davri, Carolina Fernandez, Georgios Gardikis, Bernat Gastón, Ludovic Jacquin, Antonio Lioy, Antonis Litke, Nikolaos K. Papadakis, Dimitris Papadopoulos, Jerónimo Núñez, and Eleni Trouva</p>
<p>Part III: Security Implications of SDNFV in Future Networks</p>
<p>Addressing Industry 4.0 Security by Software-Defined Networking<br> Rahamatullah Khondoker, Pedro Larbig, Dirk Scheuermann, Frank Weber, and Kpatcha Bayarou</p>
<p>Security Requirements for Multi-Operator Virtualized Network and Service Orchestration for 5G<br> Mateus Augusto Silva Santos, Alireza Ranjbar, Gergely Biczók, Barbara Martini, and Francesco Paolucci</p>
<p>Improving Security in Coalition Tactical Environments Using an SDN Approach<br> Vinod K. Mishra, Dinesh Verma, and Christopher Williams</p>
<p>A SDN and NFV Use-Case: NDN Implementation and Security Monitoring<br> Théo Combe, Wissam Mallouli, Thibault Cholez, Guillaume Doyen, Bertrand Mathieu, and Edgardo Montes de Oca</p>