Jan 06, 2018
08-Nov-06 The new frontier of the TETRA access network Slide 2
SUMMARY
1. SCENARIOS
2. WIRELESS FIRST IN M.C.O.E.
3. REQUIREMENTS of PROFESSIONAL USERS
4. MULTIPLE TECHNOLOGY
5. DISTRIBUTED CONVERGENCE
08-Nov-06 The new frontier of the TETRA access network Slide 3
SCENARIOSMostly, we can live with the errors that occur
within our operating environment. We can restart, work around the problem, or even stop awhile. Unfortunately these responses are not always acceptable for the following reasons:The failure endangers human lives.The failure causes great economic damage.The inability of the operators to carry out their tasks
would be socially irresponsible.
08-Nov-06 The new frontier of the TETRA access network Slide 4
SCENARIOSThe distinguished feauture of this type of operating
environments is that their operating mission is the reason why the relevant (human) operating organization was created for.
Failure within this type of operating environments is unacceptable.
Such environment of operations are mission critical and are referred to as Mission Critical Operating Environments (MCOE)
08-Nov-06 The new frontier of the TETRA access network Slide 5
SCENARIOS
08-Nov-06 The new frontier of the TETRA access network Slide 6
WIRELESS FIRST in MCOEWireless is the only way to provide the
3 E’s in communications for MCOE:
VoiceVoice 话音话音DataData 数据数据
VideoVideo 视频视频EveryBodyEveryWhereEveryTime
On a spatial-teme-individual need basis
08-Nov-06 The new frontier of the TETRA access network Slide 7
WIRELESS FIRST in MCOEThreats, hazards and needs of professional users
are growing in complexity, frequency, scale and scope. This is particularly evident in the area of ICT capabilities.
The field experience of professional users has made clear the need for next-generation ICT capabilities which provide for wireless broadband data access, interoperability, increased security, technical inter-operability, user transparency over myriad technological platforms and applications.
08-Nov-06 The new frontier of the TETRA access network Slide 8
REQUIREMENTS Voice + Broadband data Secure and interoperable capabilities Multiple users with multiple applications Self-establishing and self-healing network nodes IP-based mobile networking Robust management and control systems Flexible existing infrastructure dependence Dynamic and flexible radio configuration Real-time digital voice, video and sensing Clear photos, complex graphics and drawings files Enhanced telemetry information (including bio-info) Maintain integrity/security of national networks
08-Nov-06 The new frontier of the TETRA access network Slide 9
MULTIPLE TECHNOLOGY
08-Nov-06 The new frontier of the TETRA access network Slide 10
MULTIPLE TECHNOLOGY Backbone: based on Optical Fibre, Radio Links,
WiMAX PMP and Satellite technologiesAccess: via TETRA, GSM-R, Analogue
Simulcast/Conventional, LAN, WiMAX, WiFi, and Satellite technologies, with extensions to sensor networks, and meshed and ad-hoc networks.
Gateway: to public networks (PSTN, GSM, UMTS, Internet), private networks (VPN) and special communication systems
08-Nov-06 The new frontier of the TETRA access network Slide 11
MULTIPLE TECHNOLOGYFuture integrated systems’ network access will
be available via TETRA solution, analogue trunked solution, 2G and 3G solutions, WiMAX, LAN and Satellite to guarantee the use of the most suitable information highway to satisfy specific operation requirements, while gateway to public networks (PSTN, Mobile, Internet), private networks (VPN) and special communication systems is managed at their distributed network center level.
08-Nov-06 The new frontier of the TETRA access network Slide 12
DISTRIBUTED CONVERGENCEAudio (TETRA, Analogue radio, GSM etc)Messagges (SDS, SMS, email etc)Automatic Vehicle/Person LocationData Base AccessSensors
08-Nov-06 The new frontier of the TETRA access network Slide 13
DISTRIBUTED CONVERGENCE Control, management and command/decision’s head of
the new frontier’s integrated systems for professional and emergency organizations are based on a distributed-intelligence (resilient) approach where operation decision makers at different level communicate with individuals, groups and all network users remotely manage and control equipment, vehicles and sensors (position, alarms) regardless of the type of communication technology utilized, including hub to both external public and private networks and to their own networks and renders them interoperable and able to communicate with each other.