====== Publication ICN, SDN ======
** Jabref thesis **

====== Related works ======
  * Title, abstract, introduction
  * What problems?
  * What are the current approaches?
  * What is the authors' approach, contribution?

===== Key words: =====
==== Paper ====
**Problems:** 

**Current approaches:** 

**Contribution:**

=== Abstract ===

==== * Information centric network: Research challenges and opportunities ====
**Problems:** 

**Current approaches:** 

**Contribution:** Survey

=== Abstract ===

==== * Cognitive networks: adaptation and learning to achieve end-to-end performance objectives ====
2007

**Problems:** 

**Current approaches:** 

**Contribution:** Analytical approach, learning approach

=== Abstract ===
In this article we advance the idea of a cognitive network, capable of perceiving current network conditions and then planning, learning, and acting according to end-to-end goals. Cognitive networks are motivated by the complexity, heterogeneity, and reliability requirements of tomorrow's networks, which are increasingly expected to self-organize to meet user and application objectives. We compare and contrast cognitive networks with related research on cognitive radios and cross-layer design. By defining cognitive networks, examining their relationship to other technologies, discussing critical design issues, and providing a framework for implementation, we aim to establish a foundation for further research and discussion

==== The Jini architecture for network-centric computing ====
**Problems:** 

**Current approaches:** 

**Contribution:** Software mobility

=== Abstract ===

==== * The case for software-defined networking in heterogeneous networked environments ====
**Problems:** SDN in infrastructure based and infrastructure less networks.

**Current approaches:** 

**Contribution:** Usecases in H-SDN.

=== Abstract ===
Motivated  by  a  vision  of  a  fully  connected  world,  we  ex-
plore how Software{Dened Networking (SDN) can be uti-
lized  to  support  heterogeneous  environments  consisting  of
both infrastructure{based and infrastructure{less networks.
To  make  the  case  for  SDN  in  heterogeneous  networks,  or
Heterogeneous SDN (H{SDN), we examine application sce-
narios in which H{SDN is a key enabling technology.

==== *** Supporting Information-Centric Functionality in Software Defined Networks ====
Published 2012 OFELIA project.

**Problems:** Content routing where routing intelligent is provided by controller.

**Current approaches:** 

**Contribution:**  

In this paper, we will describe how coCONET can be implemented over an
OpenFlow (the most popular SDN instantiation, to date) network
and how OpenFlow should be modified to better suit the
operations of coCONET and, more in general, of ICN solutions

Define requirements of ICN which can be solved with SDN: this
paper deals with the latter one, focusing on the required
enhancements to the OpenFlow architecture, interfaces and
protocol that allow the supporting of ICN.


=== Abstract ===
The Information-Centric Networking (ICN) paradigm
is expected to be one of the major innovation of the Future
Internet An ICN can be characterized by some key components
like: (i) the content-centric request/reply paradigm for data
distribution, (ii) route-by-name operations, and (iii) in-network
caching. In this paper we focus on a framework for ICN called
CONET (COntent NETwork) and in particular on a solution
devised under this framework called coCONET. coCONET
characteristics make it suitable for deployment in accordance to
the Software Defined Networks (SDN) philosophy. In this paper,
we will describe how coCONET can be implemented over an
OpenFlow (the most popular SDN instantiation, to date) network
and how OpenFlow should be modified to better suit the
operations of coCONET and, more in general, of ICN solutions

==== *** Information centric networking over SDN and OpenFlow: Architectural aspects and experiments on the OFELIA testbed ====
2013 OFELIA

**Problems:** 

**Current approaches:** 

**Contribution:** Informative, detailed architecture of Conext to support SDN-based ICN. Experiment and results.

=== Abstract ===


==== Pursuing a software defined information-centric network ====
**Problems:** 

**Current approaches:** 

**Contribution:** ICN-SDN node design, architecture.

=== Abstract ===


==== *** Content based traffic engineering in software defined information centric networks ====
**Problems:** 

**Current approaches:** 

**Contribution:** architecture, content metadata driven services. usecase

Mechanism to extract content metadata and use it to Supporting
traffic  engineering  in  an  ICN  2)  Supporting  a  content  fire-
wall  service  3)  Performing  network-wide  cache  management
based  on  a  function  of  size  and  popularity. 

**Open issues: ** detailed on implementation and less on algorithm and methods. Simple link utilization optimization problem.

=== Abstract ===
This paper describes a content centric network architecture which uses software defined networking principles to implement efficient metadata driven services by extracting content metadata at the network layer. The ability to access content metadata transparently enables a number of new services in the network. Specific examples discussed here include: a metadata driven traffic engineering scheme which uses prior knowledge of content length to optimize content delivery, a metadata driven content firewall which is more resilient than traditional firewalls and differentiated treatment of content based on the type of content being accessed. A detailed outline of an implementation of the proposed architecture is presented along with some basic evaluation.

====== What is my approach? ======

====== Implementation & Evaluation ======