TTNT’s low latency and on-demand ad hoc IP networking allows aircraft, UAVs, ships and ground vehicles to automatically enter and exit the network without pre-planning. The masterless self-healing networking capability ensures that even if a platform node is lost or leaves the area, the network remains active for all the other users. Department of Defense (DoD) is planning to relocate TTNT from 1755–1850 MHz to 1755–1850 to 2025–2110 MHz band in the next couple of years.
Course Agenda:
- Introduction to Tactical Targeting Network Technology and Connectivity
- Overview of Joint Tactical Radio Systems (JTRS)
- Overview of TTNT (Tactical Targeting Networking Technology)
- TTNT Waveform
- Principles of Ad Hoc Networking
- TTNT and Common Networking Services and Operations
Learn about:
- Advanced JTRS waveform for aircraft battlefield communications
- Overview of Tactical Targeting Network Technology (TTNT)
- TTNT Architecture and Building Blocks
- TTNT related technologies
- Basics of Tactical Targeting Network Technology (TTNT) waveform technology
- TTNT operation
- TTNT radio terminals
- TTNT use cases for dynamic battlespace and networking needs of warfighter
- Time Sensitive Target Networking Technology (TSTNT) requirements Tactical Data
- Link Transformation (TD-L) Capability Document (CDD)
- Joint Airborne Network-Tactical Edge (JAN-TE) capabilities
- Tactical Targeting Network Technology on MIDS JTRS Terminals
- Tactical Targeting Network Technology (TTNT) wave form and the Multifunctional Information Distribution System (MIDS)
- Joint Tactical Radio System (JTRS) terminal
- Key features and benefits of Tactical Targeting Network Technology (TTNT) technology and platforms
- On-demand ad hoc IP networking
- Key principles behind TTNT secure voice, video and data
- Prioritizing traffic principles
- Statistical Priority-Based. Multiple Access (SPMA)
- Ad-hoc Dynamic IP Networking
- IP routing and switching technologies applied to TTNT
- TTNT security features
TTNT Training
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