NEWSKY

1
NEWSKY NEtWorking the SKYfor aeronautical
communicationsMichael Schnell, Sandro
ScaliseGerman Aerospace Center (DLR)Institute
of Communications and Navigation
2
Outline

• State-of-the-Art
• The NEWSKY Approach
• Benefits and Challenges
• Project Overview

3
State-of-the-Art

• Current ATM communications systems in Europe will
  be completely overloaded within the next 15
  years, even if
• 8,33 kHz program is extended
• VDL Mode 2 is completely deployed (Link 2000,
  Cascade)
• For passenger communications (APC) a strong
  market demand on high-rate data transmissions is
  still expected
• Covered mainly by satellite communications
• Re-use of satellite capacity for ATM seems
  possible if technical challenges (security,
  integrity, QoS) can be solved
• Change of paradigms in aeronautical
  communications is expected
• Less ATM voice, more ATM data link communication
• Integration of ATM and APC into one framework

4
State-of-the-Art
Source Eurocontrol
5
State-of-the-Art

• Requirements from ACARE SRA 2020
• Three times more aircraft traffic en-route
• Three times increased airport capacity
• Nine times improved security
• Transparent ATM system
• Actions currently undertaken
• Europe (EC Projects) ANASTASIA, B-VHF,
• ICAO ACP activities
• FCS and FCI jointly developed by FAA and
  Eurocontrol
• Expectation Several aeronautical communications
  system for different application areas
• Missing Overall approach, integrated network

6
The NEWSKY Approach

• Networking the Sky Development of a global,
  heterogeneous communications network for
  aeronautical communications
• Integration of different communications systems,
  i.e. ground-based ATM, satellite-based ATM, ATM
  within airports (A-SMGCS), and ATM between
  aircraft (ad-hoc network)
• Integration of different applications and
  services ranging from ATC/ATM over AOC and AAC
  to APC
• Ensuring that safety critical applications and
  services are always served in time with the
  required Quality of Service (QoS)
• Ensuring network security
• Goal Enable aircraft to be included in CDM and
  SWIM
• Similar research in the U.S. on network enabled
  operation
• NEWSKY enabler for the flexible airborne
  infrastructure!?!

7
The NEWSKY Approach
8
The NEWSKY Approach

• Detailed NEWSKY work program
• Develop framework for ATM network transformation
• Identify relevant application scenarios and
  service requirements
• Develop framework for NEWSKY network concept and
  architecture
• Design and evaluate NEWSKY integrated airborne
  network
• Validate NEWSKY integrated airborne network
  design
• Validation using simulations
• Validation in laboratory trials
• Overall NEWSKY goalIntegration of both different
  communications systems and different applications
  into a global, heterogeneous network

9
The NEWSKY Approach
Application Layers
Transport Layer
Network Layer
Access Technology INDEPENDENT
Access Technology Dependent
Access Technology Dependent
Access Technology Dependent
Access Technology Dependent
Access Technology Dependent
GEO Sat. Link (e.g. Aero BGAN)
On-Ground Link (e.g. WiMAX)
Direct A2G Link (e.g. B-VHF)
LEO/MEO Sat. Link (e.g. Galileo II)
HAPs Network

10
Benefits and Challenges

• Benefits of NEWSKY approach
• Increased redundancy, thus, increased
  availability and reliability
• Increased coverage of overall system
• Globally optimized network performance by using
  the right communication link technology at the
  right place and time
• Improved performance and system capacity
• Increased overall efficiency
• ATM system completely transparent to end
  users(pilots and controllers)
• Modular system concept which enables more
  simpleintroduction of new technologies
• Efficient and flexible utilization of the
  overallaeronautical frequency spectrum

11
Benefits and Challenges
12
Benefits and Challenges

• Challenges of NEWSKY approach
• Development of basic networking concept
  comprising
• appropriate adaptation layer
• routing algorithms
• system-level resource management
• seamless hand-over techniques
• Development of appropriate QoS classes and
  priority rules to
• meet delay requirements of different applications
• ensure safety-critical communications
• Network security
• to ensure secure communication
• using authentication, encryption, integrity
  information

13
Project Overview

• EC Project (STREP) within DG TREN
• Status Contract preparation
• Envisaged starting date 01.01.2007
• Duration 30 months
• Man-power effort 250 PM
• Total financial volume 3.6 M
• Refunded by EC 2.1 M
• Feasibility study on networking and
  interoperability between different ATC/ATM
  communications systems

14
Project Overview

• Project partners and involved countries
• Germany
• German Aerospace Center DLR (prime)
• TriaGnoSys GmbH
• Deutsche Flugsicherung GmbH (DFS)
• Austria
• University of Salzburg
• Frequentis GmbH
• France
• Alcatel Alenia Space
• Great Britain
• QinetiQ Ltd

15
NEWSKY Contacts _at_ DLR

• Michael SchnellHead of Aeronautical
  Communications GroupE-mail Michael.Schnell_at_dlr.d
  eTel. 49 8153 28-2858 Fax. 49 8153 28-1871
• Sandro ScaliseHead of Mobile Satellite Systems
  GroupE-mail Sandro.Scalise_at_dlr.deTel. 49 8153
  28-2856 Fax. 49 8153 28-2844