Telecommunications Information Networking Architecture (TINA)

1
Telecommunications Information Networking
Architecture (TINA)

• Presented by
• Sudip Misra
• E-mail sudip_misra_at_yahoo.com
• Phone (613)228-5217

2
Agenda

• Background
• What is TINA?
• Goals of TINA
• Applicability of TINA
• TINA Architectural Principles
• Layered Architecture
• Architectural Model

3
Agenda (Contd.)

• Computing Architecture
• Service Architecture
• Network Architecture
• Management Architecture
• Security Domain in TINA
• TINA Compliance
• TINA products
• Conclusions
• References

4
Background

• Internet is a key component in the multimedia
  age.
• The intelligence in modern internet lies mainly
  in the end-systems.
• Whereas, the intelligence in traditional telecom
  systems lies in the network.

5
Background (Contd.)

• Modern Internet More Computational Power
• Traditional Telecom Networks High reliability,
  security, QoS, etc.
• How would it be with the convergence of both?
• ? Versatile Multimedia and Information
  Services (High Computational Intelligence)
  (High Security, reliability, QoS).

6
What is TINA?

• Defines an open and comprehensive architecture,
  that integrates the two technologies and
  capitalizes on other recent advances in computer
  and telecommunications technologies to support
  the deployment of new multi-service networks that
  will support multimedia services 12 .
• TINA is a consortium of over forty companies,
  which include, public network operators,
  telecommunications equipment suppliers, and
  telecommunications research organizations 6.
• An example of TINA based product is from
  Starvision

7
Goals of TINA

• Aim Provide a common architecture on which new
  services can be built.
• What problems does it solve?
• ? New service deployment.
• ? Interoperability between systems from
  different vendors.
• 3 Major Goals
• 1. To provide versatile multimedia and
  information services
• 2. Make it easy to create new services
  and to manage services and
• networks
• 3. Create an open telecommunications and
  information software
• component marketplace .

8
Applicability of TINA

• The intention of TINA is to apply it to all parts
  of telecommunication and information systems
• ? Terminals (computers, etc),
• ? Transport servers (switches, routers, etc),
• ? Service servers (web, etc), and
• ? Management servers (authentication, billing,
  etc).

9
TINA Architectural Principles

• Based on four principles, that ensures
  interoperability, portability and reusability of
  software components and independence from
  specific technologies 1, 12, 13
• 1. Object-Oriented Analysis and Design
  Breaks system down into a set of interacting
  models. 
• 2. Distribution Helps in breaking service
  software components into different parts over the
  network to accommodate traffic characteristics,
  network load, survivability and customer demand.

10
TINA Architectural Principles (Contd.)

• 3. Decoupling of software components. This
  ensures that a change in one component due to a
  change in technology does not affect other
  components.
• 4. Separation of concern between parts of the
  system
• Two major separation of concerns (Figure 1)
  
• ? Between applications and the environment
  (i.e. DPE), on which they are run, and
• ? Separation of applications into the
  service-specific part and the generic management
  and control part.

11
Layered Architecture

• TINA is a 4-layered architecture
• Hardware Layer Processors, memory, communication
  devices.
• Software Layer Operating Systems, Communications
  and other support software (NCCE).
• DPE layer Distributed execution of
  telecommunications applications.
• Telecommunications applications layer Implements
  capabilities provided by the system.
• (Figure adapted from 13)

12
Architectural Model

• According to the separation of concerns, TINA is
  divided into the following sub-architectures
• ? Computing Architecture.
• ? Service Architecture.
• ? Network Architecture.
• ? Management Architecture.

13
Architectural Model (Contd.)
14
Computing Architecture (CA)

• Defines object-oriented modeling concepts and the
  DPE.
• CA provides three viewpoints modeling concepts
  (VP M)
• ?Information VPM
• ?Computation VPM
• ? Engineering VPM.

15
Computing Architecture (Contd.)

• Information VPM
• ? Describes the following concepts
• -- Information objects - information
  bearing entities.
• -- Object types - classifications of
  information objects.
• -- Relationships between entities.
• -- Constraints and rules that govern
  their behavior.
• Computational VPM
• ? Describes computational objects and their
  relations
• ? Computational objects are units of
  programming
• interacting by communication through
  interface.

16
Computing Architecture (Contd.)

• Engineering VPM
• ? Describes the organization of an abstract
  infrastructure required to support distribution
  called the DPE (Distributed Processing
  Environment).
• ? Engineering Modeling Concepts include
• -- DPE Kernel - provides support to
  object-life-cycle
• control and inter-object
  communication.
• -- Kernel Transport Network (KTN) -
  provides a
• technology-independent view of the
  communication
• facilities provided by the NCCEs of
  the DPE nodes.
• -- DPE Services - provide operational
  I/F to support
• the run-time execution and
  communication of objects.

17
Service Architecture

• The Service Architecture defines a set of
  principles for providing services.
• Session concepts help in providing service
  information specification
• ? Access Session A user runs it to access a
  service.
• ? Service Session Provides an environment
  for
• execution of a service.
• ? User Session activities performed and the
  resources
• allocated by one user for one specific
  service session.
• ? Communication Session Supports activities
  needed to
• support communication between users.

18
Service Architecture TINA Sessions
19
Service Architecture (Contd.)

• Generic Access Information Model.
• Access Scenario
• 1) First, a terminal is recognized and
  associated to a network access point.
• 2) Second, user identified through the
  appropriated registration procedures,
• 3) Next, the user is associated to
  terminal(s), and
• 4) Eventually, the user can access to a set
  of executable services or existing sessions.

20
Network Architecture

• Generic concepts to describe transport networks
  in a technology independent way.
• Establishment, modification and release of
  connections.
• Defined using ITU-T recommendations G.803,
  M3100.
• Major Concepts
• ? Partitioning into sub-networks and links
• between them.
• ? Layering A set of layered networks.

21
Management Architecture

• Defines a set of concepts and principles for
  software systems that manage services, resources,
  software, and underlying technology.
• Management Activities
• ? Telecommunications Management Management of
  telecom services and underlying networks.
• ? Computing Management Management of
  computers, platforms, and the DPE on which TINA
  runs.
• ? Software Management
• ? DPE Management
• ? Computing Environment Management.
• ? Kernel Transport Network Management.

22
Management Architecture (Contd.)

• Management in the Service Architecture focuses on
  the Service Management Layer (SML)
• Management in the Network Architecture comprises
  Network and Network Element Management Layers
  (NML and EML)
• Management in Computing Architecture does not
  conform with TMN layering

23
Security Domain in TINA

• Because of its distributed computing environment,
  TINA products are vulnerable to security
  violation.
• TINA Security requirements in four areas
• ? Telecom systems and service.
• ? Management systems.
• ? DPE security and DPE security services.
• ? Security Management
• (Please see notes for details).

24
TINA Compliance

• The compliance to the TINA concepts and
  principles can broadly be classified to be in
  either of two types
• External Any system based on TINA should apply
  architectural concepts and principles to design,
  specification and implementation.  
• Internal Internal compliance concepts and
  principles are normally used and applied by TINA
  consortium and their use for others is entirely
  optional.

25
TINA Products

• Two categories
• ? Products and Implementations (DPEs, tools,
  servers, open switches, and so on), e.g.,
  Starvision is a first example.
• ? Service offerings which have (visibly or
  invisibly) "TINA inside" .

26
Conclusions

• TINA proposes solutions for the future evolution
  of IN.
• TINA Service Composition Architecture is helpful
  for rapid deployment of new services.
• TINA security management is a key issue because
  of greater vulnerability to security violation
  because of its distributed nature.

27
References

• 1 W.J. Barr, T. Boyd, Y, Inoue, The TINA
  initiative, IEEE Communications Magazine, Vol.
  31, Issue 3, pp. 70-76, 1993.
•  2 M. Born, R. Fischer, M. Von Lowis, D.
  Kruger, C. Ulbricht, Service Composition in a
  TINA Environment, Proceedings of TINA99, pp.
  180-182, 1999.
•  3 L. M. Cacares, W.T. Watanabe, C.B.
  WestPhall, A. Sekkaki, Development of Prototype
  based on TINA Accounting and Service Management
  Architecture, Proceedings of XXI International
  Conference of the Chilean Computer Science
  Society, pp. 50-57, 2001.
•  4 F.J. Carrasco, J. Esteve, M. Felipe, J.C.
  Garcia, Applying CORBA Technology for the
  implementation of a TINA service, Global
  Telecommunications Perspective, GLOBECOM96, vol.
  1, pp.57-62, 1996.
•  5 P. Hellemans, H. Vanderstraeten, J.C. Yelmo,
  J. Villamor, P. Lago, G. Canal, TINA Service
  Architecture For Specification to
  Implementation, Proceedings of TINA97
  Conference, pp. 174-183, 1997.
•  6 Y. Inoue, D. Cuha, H. Berndt, The TINA
  Consortium, IEEE Communications Magazine, pp.
  130-136, Vol. 36, Issue 9, 1998.
•  7 M. Kihl, C. Nyberg, H. Warne, P. Wollinger,
  Performance simulation of a TINA Network,
  Golobal Telecommunications Conference,
  GLOBECOM97, vol. 3, pp.1567-1571, 1997.
• 8 M. Mampaey, A. Couturier, Using TINA
  Concepts for IN evolution, IEEE Communications
  Magazine, Vol. 38, Issue 6, pp. 94-99, 2000.
•  9 P. Richardson, Integrating network and
  operations A TINA Perspective, Region 10
  International Conference on Technology Enabling
  Tomorrow Computers, Communications and
  Automation towards the 21st Century, pp 207-211,
  vol. 1, 1992.
•  

28
References (Contd.)

• 10 C. Smith, Applying TINA-C service
  architecture to the intranets and internet,
  Proceedings of TINA 97 Conference, pp. 4-12,
  1997.
• 11 P. Vickers, R. Cole, The role of TINA in
  telecomms revolution, IEE Third Tutorial Seminar
  on The Intelligent Network - The Next Generation,
  pp. 4/1-4/4, 1995.
• 12 The TINA Consortium Web Page,
  http//www.tinac.com
• 13 http//hagel.ittc.ukans.edu/projects/tina-c/
• 14 www.omg.org/news/about/liaison.htm
• 15 http//www.objs.com/workshops/ws9801/papers/p
  aper035.html
• 16 http//www.tid.es/presencia/publicaciones/com
  sid/ing/articulos/vol71/tinac/tinac.html