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Radar Systems Design and Engineering Training covers the design and engineering of modern Radar systems including analysis, high level architecture, design of critical components, transmitter/receiver, antenna, verification and validation, operations and maintenance. Learn advanced operating principles of a primary radar set and engineering and development, testing, and support. Who Should Attend: Engineers Technical managers Technicians Logistics and support Pilots Procurement Learning Objectives: Upon completion of the Radar Systems Design and Engineering Training course, the attendees will be able to: List terminology, principle, concepts, subsystems and components related to the systems engineering and design Describe radar system design, engineering and operation process and principles , Describe theory of operation of modern Radars Discuss principles, procedures, engineering techniques and evolution of radar technology Create Radar Concept of Operation (ConOps), functional ...

TTNT Training, Tactical Targeting Network Technology Training includes all aspects of Department of Defense (DoD)’s TTNT waveforms for use in air-to-air networks of high-speed aircraft at 1755–1850 MHz which is currently used and shared by commercial LTE/LTE-A cellular users. Tactical Targeting Network Technology (TTNT) represents a secure, robust and low latency IP-based TDL waveform delivering the fastest adhoc mesh network to the tactical edge. 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...

mmW Technology Training makes you familiar with the fundamentals of millimeter wave technologies including 28 GHz and ISM 60 GHz (802.11ad, and 802.11ay) and applications for anyone who need to be grounded in the fundamentals of millimeter wave technologies. mmW technology is based on the spectrum between 30 GHz and 300 GHz, which is referred to as the millimeter wave band. Because the wavelengths for these frequencies are about one to ten millimeters, the mmW are used to label the technologies and applications using these bands. Learning Objectives: Upon completion of this course, the attendees will be able to: Explain the key concepts behind mmW technologies and applications Contrast mmW deployment with Microwave communications deployment Discuss various mmW key components List key measurement, analysis, and identification concepts of physical parameters, and statistical representations of mmWave propagation channels Describe mmW propagation mechanisms Explain various aspects of...

Advanced Link 16 Training covers advanced Link 16 concepts, Link 16 network architecture, Link 16 planning, Link 16 security, Link 16 Cybersecurity Link 16 operation and Link 16 management.  Link-16 has many advantages over other existing tactical data links such as Link 11.  The network in Link 16 is “nodeless” which means that the Link 16 network does not depend on any one of the terminals with a distributed operation.  Advanced Link 16 Training Objectives: Upon completing this Advanced Link 16 training course, the attendees will be able to: Identify the motivating factors behind Link 16 Define the key features of Link 16 Identify challenges in Link 16 planning, operation and management and to address them Sketch the Link 16 network architecture List the functional requirements, operational requirements, security and performance targets for Link 16 Specify Link 16 radio operations and protocols Summarize the Link 16 system acquisition and session set...

Advanced DO-178C training workshop covers the main notions behind DO-178B/C avionics certification. It also reviews the differences between DO-178B and DO-178C. Audience: Advanced DO-178C training workshop is a 4-day course designed for: Software engineers Project managers Systems engineers Software quality engineers Test engineers Quality and process assurance personnel Training Objectives: Upon the completion of Advanced DO-178C training workshop, the attendees are able to: Understand all the parts of DO-178C Articulate the differences of DO-178B and DO-178C Discuss the background and evolution path of DO-178C Understand the DO-178C software life cycle model Explain the constituent processes of DO-178C Discuss the usual pitfalls and problems associated with DO-178C Apply the required methods to develop and implement DO-178C Use the best practices suitable for their organization Conduct process planning Elaborate environment considerations Discuss the requirements and architecture...

Aerospace and Defense Engineering Training. Aerospace and Defense Engineering Training courses by TONEX are blends of science and engineering practices and ideas that are required to make common, business and military flying machine and rocket. As a rule, "defense" implies gear, support, and correspondence frameworks covering the land fighting, and additionally the surface warships and submarines. TONEX plans to cover all zones of aerospace and defense engineering that is connected in these fields. Aerospace & Defense Engineering, from the Systems Engineering Perspective Due to the broad definition of systems engineering, any area that contains more than two elements that have an interaction with each other can be called a system. Therefore, aerospace and defense engineering can perfectly be placed under systems engineering.