Since the wavelengths for these frequencies are around one to ten millimeters, the mmW are utilized to name the advancements and applications utilizing these groups. Millimeter wave engendering has its own quirks and attributes of radio flag spread at millimeter wave frequencies and their suggestions for range administration are enter ideas shrouded in this instructional class. mmW preparing, millimeter wave preparing will fill the holes in comprehension of mmW advancements. mmW preparing likewise represents the central ideas of millimeter wave and features the significance of a few parts of mmW advancements, applications and patterns.
millimeter wave Learning Objectives
- Endless supply of this course, the participants will have the capacity to:
- Clarify the key ideas driving mmW advancements and applications
- Balance mmW arrangement with Microwave interchanges organization
- Talk about different mmW key segments
- Rundown key estimation, examination, and recognizable proof ideas of physical parameters, and factual portrayals of mmWave engendering channels
- Portray mmW proliferation instruments
- Clarify different parts of mmW plan and connection spending plan
- Outline the methodologies utilized for mmW technology plan and usage
- Blueprint KPIs that evaluate mmW execution
- Clarify how apparatuses can be utilized amid different phases of the mmW frameworks building including investigation, demonstrating, plan, reproduction, organization, tasks and enhancement
Course Content
- Millimeter Wave (mmW) Technology at a Glance
- Introduction to mmW
- Millimeter wave definition
- Key benefits of mmW technology
- mmW frequency band applications
- mmW technology overview
- Millimeter wave technology potential applications
- The mmW band and the bandwidth
- mmW / Sub-mmW
- Technical features and functions
- Enabling technologies
- Innovations
- System considerations
- System Stand-Off / Operation Range
- Issues and performance considerations
- The propagation characteristics of millimeter waves
- “Optical” propagation characteristics
- Loss of signal due to atmospheric effects
- mmW propagation characteristics
- mmW signal loss
mmW Technologies and Applications
- Definition of frequency bands
- Extremely high frequency (EHF)
- Millimeter band (IEEE)
- Frequency and Wavelength ranges
- Overview of K / L / M bands (NATO)
- Overview of IEEE Ka / V / W / mm bands
- mmW Applications
- Scientific research
- Satellite-based remote sensing
- Atmosphere by measuring radiation emitted from oxygen
- Telecommunications
- Weapons systems
- Millimeter wave radar
- Imaging
- Millimeter wave based technologies
- Active circuit Physical model
- Simulation mmW transistor
- Maxwell equation
- Finite difference method
- Time domain method
mmW Propagation and Loses, Modeling and Simulation of mmW, mmW Modeling and Simulation, ITS Millimeter–wave Propagation Model (MPM), mmW Systems Engineering,
Case Studies and Projects Overview
- mmW application case studies
- mmW system case studies
- mmW technology case studies
- Trends and evolution
Learn more about mmW training
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